Furtak TE and Roy D,  
Nature of the Active Site in Surface Enhanced Raman Scattering,
Physical Review Letters  50 (1983) 1301-1304. Times Cited: 85

Cited by:

85. Lee MT, Wu DY, Tian ZQ, et al.
Effect of displacement and distortion of potential energy surfaces and overlapping resonances of electronic transitions on surface-enhanced Raman scattering: Models and ab initio theoretical calculation 
Journal Of Chemical Physics 122 (9): 2005

84. Muniz-Miranda M, Innocenti M
AFM and Micro-Raman Investigation on Filters Coated with Silver Colloidal Nanoparticles 
Applied Surface Science 226: 125-130, 2004

83. Haran G
Single molecule Raman Spectroscopy and Local Work Function Fluctuations 
Israel Journal Of Chemistry 44: 385-390, 2004

82. Kim J, Gewirth AA
Interactions Between the Keggin-type Lacunary Polyoxometalate, Alpha-SiW11O398-, and Electrode Surfaces 
Langmuir 19: 8934-8942, 2003

81. Wu DY, Hayashi M, Chang CH, et al.
Bonding Interaction, Low-lying States and Excited Charge-Transfer States of Pyridine-metal Clusters: Pyridine-M-n (M=Cu, Ag, Au; n=2-4) 
Journal Of Chemical Physics 118: 4073-4085, 2003

80. Weiss A, Haran G
Time-Dependent Single-Molecule Raman Scattering as a Probe of Surface Dynamics 
Journal Of Physical Chemistry B 105: 12348-12354, 2001

79. Nicholson MA, Aust JF, Booksh KS,et al.
Kinetic And Spectroscopic Profiles of Three Pyridine Complexes at a Silver Electrode Using Surface-Enhanced Raman Scattering and Evolving Factor Analysis 
Vibrational Spectroscopy 24: 157-163, 2000

78. Mcmahon JJ, Gergel TJ, Otterson DM, et al.
Photochemical Charge Transfer Excitation of Trans-4-Stilbazole at a Silver Electrode 
Surface Science 440: 357-374, 1999

77. Xue G
Fourier Transform Raman Spectroscopy and its Application for the Analysis of Polymeric Materials 
Progress In Polymer Science 22: 313-406 1997

76. Kruszewski S
The Possibility of Observing Light Absorption on The SERS-Active Silver Electrode 
Journal Of Raman Spectroscopy 27: 513-517, 1996

75. Osawa M, Matsuda N, Yoshii K,et al.
Charge-Transfer Resonance Raman Process in Surface-Enhanced Raman-Scattering from P-Aminothiophenol Adsorbed on Silver - Herzberg-Teller Contribution 
Journal Of Physical Chemistry 98: 12702-12707, 1994

74. Basini L, Cavalca CA, Haller Gl
Electrochemical Promotion of Oxygen-Atom Back-Spillover From Yttria-Stabilized Zirconia onto a Porous Platinum-Electrode - Detection of SERS Signals 
Journal Of Physical Chemistry 98: 10853-10856, 1994

73. Xue G
Laser Raman-Spectroscopy of Polymeric Materials 
Progress In Polymer Science 19: 317-388 1994

(Ref 1-72) records are not available prior to 1994

Roy D, Furtak T,
Characterization Of Surface Complexes In Enhanced Raman-Scattering
Journal Of Chemical Physics 81: 4168-4175 1984 Times Cited: 44

Cited by:

44. Oklejas V, Harris JM
Potential-Dependent Surface-Enhanced Raman Scattering From Adsorbed Thiocyanate for Characterizing Silver Surfaces with Improved Reproducibility 
Applied Spectroscopy 58: 945-951, 2004

43. Debarre A, Jaffiol R, Julien C, et al.
Raman Scattering from Single Ag Aggregates In Presence of Edta 
Chemical Physics Letters 386: 244-247, 2004.

42. Hu Jw, Zhao B, Xu WQ, et al.
Surface-Enhanced Raman Spectroscopy Study on the Structure Changes of 4-Mercaptopyridine Adsorbed On Silver Substrates And Silver Colloids 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 58: 2827-2834, 2002

41. Weiss A, Haran G
Time-Dependent Single-Molecule Raman Scattering as a Probe Of Surface Dynamics 
Journal Of Physical Chemistry B 105: 12348-12354, 2001

40. Chowdhury J, Pal P, Ghosh M, et al.
Surface-Enhanced Raman Scattering of Rhodamine 123 in Silver Hydrosols And In Langmuir-Blodgett Films On Silver Islands 
Journal Of Colloid And Interface Science 235: 317-324, 2001

39. Chowdhury J, Ghosh M, Misra TN
pH-Dependent Surface-Enhanced Raman Scattering of 8-Hydroxy Quinoline Adsorbed on Silver Hydrosol 
Journal Of Colloid And Interface Science 228: 372-378, 2000

38. Fang Y
Acid with Visible and Near-Infrared Excitations 
Journal Of Raman Spectroscopy 30: 85-89, 1999

37. Grochala W, Bukowska J
Study Of The Ag+ Surface Complexes of Murexide By SERS and Serrs Spectra at Ag Electrodes 
Vibrational Spectroscopy 17: 145-154, 1998

36.Wang X, Wen H, He TJ, et al.
Enhancement Mechanism of SERS from Cyanine Dyes Adsorbed on Ag2O Colloids 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 53: 2495-2504, 1997

35. Munizmiranda M, Sbrana G
Evidence For Surface Ag+ Complex Formation by An Anion-Induced Effect in the SER Spectra Of Phthalazine Adsorbed on Silver Sols 
Journal Of Raman Spectroscopy 27: 105-110, 1996

34. Markwort L, Hendra P
Microelectrode Substrates - A Solution to Current Problems in Surface-Enhanced Raman-Spectroscopy (Sers) 
Journal of Electroanalytical Chemistry 397: 225-240, 1995

33. Sanchezcortes S, Garciaramos JV, Morcillo G, et al.
Morphological-Study of Silver Colloids Employed in Surface-Enhanced Raman-Spectroscopy - Activation When Exciting in Visible and Near-Infrared Regions 
Journal Of Colloid And Interface Science 175: 358-368, 1995

32. Sanchezcortes S, Garciaramos JV, Morcillo G
Morphological-Study of Metal Colloids Employed as Substrate in the SERS Spectroscopy 
Journal Of Colloid And Interface Science 167: 428-436, 1994

T. E. Furtak and D. Roy,  "The Short Range Mechanism of Surface Enhanced Raman Scattering'',
Surface Science 158 (1985) 126-146. Times Cited: 81

Cited by:

81. Lee MT, Wu DY, Tian ZQ, et al.
Effect of displacement and distortion of potential energy surfaces and overlapping resonances of electronic transitions on surface-enhanced Raman scattering: Models and ab initio theoretical calculation 
Journal Of Chemical Physics 122 (9): 2005

80. Otto A, Bruckbauer A, Chen YX
On The Chloride Activation in SERS And Single Molecule SERS 
Journal Of Molecular Structure 661: 501-514, 2003

79. Liu YC, Liu YC, Lin YT
Strategy and Characteristics of Polypyrrole Deposited on Silver Substrates with Silver-Containing Nanocomplexes 
Journal Of Physical Chemistry B 107: 11370-11375, 2003

78. Liu YC, Yang SJ
Autopolymerization of Pyrrole on the Silver Substrates Roughened by an Electrochemical Method 
Indian Journal Of Chemistry Section A-Inorganic Bio-Inorganic Physical Theoretical & Analytical Chemistry
42: 836-838 2003

77. Liu YC, Liang YS
Characteristics Of Cl- and Au-Containing Nanocomplex and Its Effect on the Following Electrodeposition of Polypyrrole 
Electroanalysis 15: 200-207, 2003

76. Liu YC
New Pathway for the Autopolymerization of Pyrrole on The Chlorine- and Gold-Containing Complexes with Nanostructures 
Langmuir 18: 9513-9518, 2002

75. Liu YC, Jang LY
Relationship between Crystalline Orientations of Gold And Surface-Enhanced Raman Scattering Spectroscopy of Polypyrrole And Mechanism of Roughening Procedure on Gold via Cyclic Voltammetry 
Journal Of Physical Chemistry B 106: 6748-6753, 2002

74. Francioso O, Sanchez-Cortes S, Casarini D, et al.
Spectroscopic Study of Humic Acids Fractionated by Means of Tangential Ultrafiltration 
Journal Of Molecular Structure 609: 137-147, 2002

73. Liu YC
Evidence of Chemical Effect on Surface-Enhanced Raman Scattering of Polypyrrole Films Electrodeposited on Roughened Gold Substrates 
Langmuir 18: 174-181, 2002

72. Nicholson MA, Aust JF, Booksh KS, et al.
Kinetic And Spectroscopic Profiles of Three Pyridine Complexes at A Silver Electrode Using Surface-Enhanced Raman Scattering and Evolving Factor Analysis 
Vibrational Spectroscopy 24: 157-163, 2000

71. Cao PG, Yao JI, Ren B, et al.
Surface-Enhanced Raman Scattering from Bare Fe Electrode Surfaces 
Chemical Physics Letters 316: 1-5 , 2000

70. Taylor CE, Pemberton JE, Goodman GG, et al.
Surface Enhancement Factors For Ag and Au Surfaces Relative to Pt Surfaces for Monolayers of Thiophenol 
Applied Spectroscopy 53: 1212-1221, 1999

69. Corio P, Temperini MLA, Santos PS, et al.
Contribution of The Charge Transfer Mechanism to The Surface-Enhanced Raman Scattering of The Binuclear Ion Complex [Fe-2((Bpe)(Cn))(10)](6-) Adsorbed on a Silver Electrode In Different Solvents 
Langmuir 15: 2500-2507, 1999

68. Yang XM, Tryk DA, Hashimoto K, et al.
Examination of The Photoreaction of P-Nitrobenzoic Acid on Electrochemically Roughened Silver Using Surface-Enhanced Raman Imaging (Seri) 
Journal Of Physical Chemistry B 102: 4933-4943, 1998

67. Francioso O, Sanchez-Cortes S, Tugnoli V, et al.
Characterization of Feat Fulvic Acid Fractions by Means of Ft-Ir, SERS, and H-1, C-13 NMR Spectroscopy 
Applied Spectroscopy 52: 270-277, 1998

66. Sanchez-Cortes S, Francioso O, Ciavatta C, et al.
pH-Dependent Adsorption of Fractionated Peat Humic Substances on Different Silver Colloids Studied by Surface-Enhanced Raman Spectroscopy 
Journal Of Colloid And Interface Science 198: 308-318, 1998

65. Jang NH, Suh JS, Moskovits M
Effect of Surface Geometry on The Photochemical Reaction of 1,10-Phenanthroline Adsorbed on Silver Colloid Surfaces 
Journal Of Physical Chemistry B 101: 8279-8285, 1997

64. Corio P, Rubim JC
Surface-Enhanced Raman Spectroscopy on Electrode Surfaces as a Tool to Characterize Lumos Of Inorganic Complexes with Two Different Ligands. the Case of the Ion Complex [Ru(Bipy)(2)Viol](+) 
Journal Of Raman Spectroscopy 28: 235-241, 1997

63.Garciaramos JV, Sanchezcortes S
Metal Colloids Employed in the SERS of Biomolecules: Activation when Exciting in the Visible And Near-Infrared Regions 
Journal Of Molecular Structure 405: 13-28, 1997

62. Kruszewski S
The Surface Enhanced Raman Scattering on Electrochemically Roughened Silver Electrodes 
Vacuum 48: 363-368, 1997

61. Tian ZQ, Ren B, Chen YX, et al.
Probing Electrode/Electrolyte Interfacial Structure in the Potential Region of Hydrogen Evolution by Raman Spectroscopy 
Journal Of The Chemical Society-Faraday Transactions 92 : 3829-3838, 1996

60. Mukherjee KM, Misra TN
Surface-Enhanced Raman Spectra of 2- and 3-Hydroxypyridines in Silver Sol 
Journal Of Raman Spectroscopy 27: 595-600, 1996

59. Mukherjee KM, Misra TN, Nandy SK
Surface Enhanced Raman Spectroscopic Study of Isomeric Formyl Pyridines in Silver Colloid 
Journal Of Colloid And Interface Science 181: 413-421, 1996

58. Mukherjee KM, Maity AK, Misra TN, et al.
Surface Enhanced Raman Spectra of Isomeric Phenetidines in Silver Colloids 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 52: 5-11, 1996

57. Koglin E, Kip BJ, Meier RJ
Adsorption And Displacement of Melamine at the Ag/Electrolyte Interface Probed by Surface-Enhanced Raman Microprobe Spectroscopy 
Journal Of Physical Chemistry 100: 5078-5089, 1996

56. Oblonsky LJ, Chesnut GR, Devine TM
Adsorption of Octadecyldimethylbenzylammonium Chloride to 2 Carbon-Steel Microstructures as Observed with Surface-Enhanced Raman-Spectroscopy 
Corrosion 51: 891-900, 1995

55. Rubim JC, Corio P, Ribeiro MCC, et al.
Contribution of Resonance Raman-Scattering to The Surface-Enhanced Raman Effect on Electrode Surfaces - a Description using the Time-Dependent Formalism 
Journal Of Physical Chemistry 99: 15765-15774, 1995

54. Sanchezcortes S, Garciaramos JV, Morcillo G, et al.
Morphological-Study of Silver Colloids Employed in Surface-Enhanced Raman-Spectroscopy - Activation when Exciting in Visible and Near-Infrared Regions 
Journal Of Colloid And Interface Science 175: 358-368, 1995

53. Kruszewski S
Dependence of SERS Signal on Surface-Roughness 
Surface And Interface Analysis 21: 830-838 , 1994

52. Mukherjee KM, Sarker UK, Misra TN
Surface-Enhanced Raman-Spectra of Isomeric Acetylpyridines Adsorbed on Silver Sol 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 50: 2355-2363, 1994

51. Sanchezcortes S, Garciaramos JV, Morcillo G
Morphological-Study of Metal Colloids Employed As Substrate in the SERS Spectroscopy 
Journal Of Colloid And Interface Science 167: 428-436, 1994

50. Kwon YJ, Son DH, Ahn SJ, et al.
Vibrational Spectroscopic Investigation of Benzoic-Acid Adsorbed On Silver 
Journal Of Physical Chemistry 98: 8481-8487, 1994

49. Kwon YJ, Park SS, Kim K, et al.
Adsorption of 4-Hydroxybenzoic Acid on Silver Investigated by Surface-Enhanced Raman-Scattering 
Journal Of Raman Spectroscopy 25: 655-661, 1994

48. Deng ZY, Irish DE
Surface-Enhanced Raman-Scattering From Silver Electrode Surfaces In Contact With Solutions of Liasf6 Plus Tetramethylammonium Bromide Methyl Acetate 
Langmuir 10: 586-591, 1994

Records are not available prior to 1994 (Ref 1-47)

D. Roy and T. E. Furtak, "Evidence for Ag Cluster Vibrations in Enhanced Raman Scattering from the Ag/Electrolyte Interface'', Chemical Physics Letters 124 (1986) 299-303. Times Cited: 65

Cited by:

65. Johansson P
Illustrative Direct Ab Initio Calculations of Surface Raman Spectra 
Physical Chemistry Chemical Physics 7: 475-482 2005

64. Jacobson Ml, Rowlen Kl
Photo-Dynamics on Thin Silver Films 
Chemical Physics Letters 401: 52-57 , 2005

63. Oklejas V, Harris JM
Potential-Dependent Surface-Enhanced Raman Scattering from Adsorbed Thiocyanate for Characterizing Silver Surfaces with Improved Reproducibility 
Applied Spectroscopy 58: 945-951, 2004

62. Liu YC
Enhancement in the Raman Scattering of Polypyrrole Electrodeposited on Roughened Gold Substrates Coated With Gold Monolayers 
Journal Of Physical Chemistry B 108: 2948-2952, 2004

61. Liu YC, Liu YC, Lin YT
Strategy And Characteristics of Polypyrrole Deposited on Silver Substrates with Silver-Containing Nanocomplexes 
Journal Of Physical Chemistry B 107: 11370-11375, 2003

60. Chen SP, Qiao ZH, Vivoni A, et al.
Determination of The Orientation of Azathioprine Adsorbed on A Silver Electrode By SERS And Ab Initio Calculations 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 59: 2905-2914, 2003

59. Liu YC, Chuang TC
Self-Assembly And Autopolymerization of Pyrrole And Characteristics of Electrodeposition of Polypyrrole on Roughened Au(111) Modified by Underpotentially Deposited Copper 
Journal Of Physical Chemistry B 107: 9802-9807, 2003

58. Liu YC, Yang KH, Wang CC
Enhancements in Conductivity and Raman Spectroscopy of Polypyrrole Electropolymerized on Electrochemically Roughened Au Substrates 
Journal Of Electroanalytical Chemistry 549: 151-155, 2003

57. Vivoni A, Birke Rl, Foucault R, et al.
Ab Initio Frequency Calculations of Pyridine Adsorbed on an Adatom Model of A SERS Active Site of a Silver Surface 
Journal Of Physical Chemistry B 107: 5547-5557, 2003

56. Liu YC, Yang SJ
Autopolymerization of Pyrrole on the Silver Substrates Roughened by an Electrochemical Method 
Indian Journal Of Chemistry Section A-Inorganic Bio-Inorganic Physical Theoretical & Analytical Chemistry 42: 836-838, 2003

55. Liu YC, Liang YS
Characteristics of Cl- And Au-Containing Nanocomplex and its Effect on the following Electrodeposition of Polypyrrole 
Electroanalysis 15: 200-207, 2003

54. Liu YC
New Pathway for the Autopolymerization of Pyrrole on The Chlorine- And Gold-Containing Complexes With Nanostructures 
Langmuir 18: 9513-9518, 2002

53. Leverette Cl, Shubert VA, Wade Tl, et al.
Development of a Novel Dual-Layer Thick Ag Substrate for Surface-Enhanced Raman Scattering (SERS) of Self-Assembled Monolayers 
Journal Of Physical Chemistry B 106: 8747-8755, 2002

52. Liu YC, Jang LY
Relationship Between Crystalline Orientations of Gold And Surface-Enhanced Raman Scattering Spectroscopy Of Polypyrrole And Mechanism of Roughening Procedure on Gold via Cyclic Voltammetry 
Journal Of Physical Chemistry B 106: 6748-6753, 2002

51. Doering WE, Nie SM
Single-Molecule And Single-Nanoparticle SERS: Examining The Roles of Surface Active Sites and Chemical Enhancement 
Journal Of Physical Chemistry B 106: 311-317, 2002

50. Liu YC
Evidence of Chemical Effect on Surface-Enhanced Raman Scattering of Polypyrrole Films Electrodeposited on Roughened Gold Substrates 
Langmuir 18: 174-181, 2002

49. Liu YC, Jang LY
Effect of Crystalline Orientations of Gold Substrate on The Surface-Enhanced Raman Scattering of Electrochemically Deposited Polypyrrole 
Chemical Physics Letters 349: 363-366, 2001

48. Guo LJ, Zhang XT, Du Zl, et al.
The Charge Transferring Between Silver Nanoparticles And R6g 
Spectroscopy And Spectral Analysis 21: 16-18, 2001

47. Rivas L, Murza A, Sanchez-Cortes S, et al.
Adsorption of Acridine Drugs on Silver: Surface-Enhanced Resonance Raman Evidence of The Existence of Different Adsorption Sites 
Vibrational Spectroscopy 25: 19-28, 2001

46.Dick LA, Haes AJ, Van Duyne RP
Distance And Orientation Dependence of Heterogeneous Electron Transfer: A Surface-Enhanced Resonance Raman Scattering Study of Cytochrome C Bound to Carboxylic Acid Terminated Alkanethiols Adsorbed on Silver Electrodes 
Journal Of Physical Chemistry B 104: 11752-11762, 2000

45. Taylor CE, Pemberton JE, Goodman GG, et al.
Surface Enhancement Factors for Ag and Au Surfaces Relative to Pt Surfaces for Monolayers of Thiophenol 
Applied Spectroscopy 53: 1212-1221, 1999

44. Murza A, Sanchez-Cortes S, Garcia-Ramos JV
Fluorescence And Surface-Enhanced Raman Study of 9-Aminoacridine In Relation to its Aggregation And Excimer Emission in Aqueous Solution and on Silver Surface 
Biospectroscopy 4: 327-339 1998

43. Sanchez-Cortes S, Garcia-Ramos JV
Anomalous Raman Bands Appearing in Surface-Enhanced Raman Spectra 
Journal Of Raman Spectroscopy 29: 365-371, 1998

42. Sanchez-Cortes S, Francioso O, Ciavatta C, et al.
pH-Dependent Adsorption of Fractionated Peat Humic Substances on Different Silver Colloids Studied by Surface-Enhanced Raman Spectroscopy 
Journal Of Colloid And Interface Science 198: 308-318, 1998

41. Daujotis V, Kairys V
The Mechanism of Electroreduction of Silver Cyanide Complexes in Aqueous Electrolytes .2. Interpretation of Sers Data 
Electrochimica Acta 42: 1345-1350 1997

40. Akemann W, Otto A, Schober H
Raman Scattering by Bulk Phonons In Microcrystalline Silver via Electronic Surface Excitations 
Journal Of The Brazilian Chemical Society 7: 443-451 1996

39. Choi YS, Kim JJ, Miyajima S
Diffusive Loss of Surface Adatoms and Surface Enhanced Raman Scattering Intensity 
Chemical Physics Letters 255: 45-48, 1996

38. Zhang HG, Liu FC, He TN, et al.
Time Dependent UV-Absorption Spectra and Surface Enhanced Raman Scattering of Pyridine in Agcl Sol 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 51: 1903-1908, 1995

37. Markwort L, Hendra P
Microelectrode Substrates - A Solution to Current Problems in Surface-Enhanced Raman-Spectroscopy (SERS) 
Journal Of Electroanalytical Chemistry 397: 225-240, 1995

36. Sanchezcortes S, Garciaramos JV, Morcillo G, et al.
Morphological-Study of Silver Colloids Employed in Surface-Enhanced Raman-Spectroscopy - Activation When Exciting in Visible and Near-Infrared Regions 
Journal Of Colloid And Interface Science 175: 358-368, 1995

35.Osawa M, Matsuda N, Yoshii K, et al.
Charge-Transfer Resonance Raman Process in Surface-Enhanced Raman-Scattering From P-Aminothiophenol Adsorbed on Silver - Herzberg-Teller Contribution 
Journal Of Physical Chemistry 98: 12702-1270, 1994

34. Park SS, Kim K, Kim MS
Adsorption of Halides on Specific Reaction Sites on The Silver Sol Surface as Investigated By Raman-Spectroscopy 
Chemical Physics Letters 230: 171-176, 1994

33. Sanchezcortes S, Garciaramos JV, Morcillo G
Morphological-Study of Metal Colloids Employed as Substrate in the SERS Spectroscopy 
Journal Of Colloid And Interface Science 167: 428-436, 1994

32.Barnett SM, Vlckova B, Butler IS, et al.
Surface-Enhanced Raman-Scattering Spectroscopic Study of 17-Alpha-Ethinylestradiol on Silver Colloid and in Glass-Deposited Ag-17-Alpha-Ethinylestradiol Film 
Analytical Chemistry 66: 1762-1765, 1994

31.Vlckova B, Matejka P, Vanoutersterp JWM, et al.
Surface-Enhanced Raman-Scattering Spectroscopy of Organometallics in Systems with Aqueous Silver Colloids 
Inorganic Chemistry 33: 2132-2136 , 1994

30. Cermakova K, Sestak O, Matejka P, et al.
Surface-Enhanced Raman-Scattering (SERS) Spectroscopy With Borohydride-Reduced Silver Colloids - Controlling Adsorption of The Scattering Species by Surface-Potential of Silver Colloid 
Collection of Czechoslovak Chemical Communications 58: 2682-2694, 1993

(Ref 1-30) records are not available prior to 1994

D. Roy and T. E. Furtak, "The Origin of the Potential Dependence of the Surface Enhanced Raman Scattering of Chloride on Silver'', Chemical Physics Letters 129 (1986) 501-504.Times Cited: 10

Cited by:

10. Oklejas V, Harris JM
Potential-Dependent Surface-Enhanced Raman Scattering From Adsorbed Thiocyanate for Characterizing Silver Surfaces With Improved Reproducibility 
Applied Spectroscopy 58: 945-951, 2004

9. Sneddon DD, Gewirth AA
In Situ Characterization of Halide Adsorption And Ag-Halide Growth on Ag(111) Electrodes Using Atomic Force Microscopy 
Surface Science 343: 185-200, 1995

8. Dong J, Sheng ZH, Xue G
Near-Ir Excited Surface-Enhanced Raman-Scattering From Adsorbed Layer on Nickel by Doping with Silver 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 51: 1031-1041, 1995

D. Roy and T. E. Furtak,  "Vibrational Characteristics of Silver Clusters in Surface Enhanced Raman Scattering'', Physical Review B 34 (1986) 5111-5117. Times Cited: 40

Cited by:

40. Johansson P
Illustrative Direct Ab Initio Calculations of Surface Raman Spectra 
Physical Chemistry Chemical Physics 7: 475-482 2005

39. Jacobson Ml, Rowlen Kl
Photo-Dynamics on Thin Silver Films 
Chemical Physics Letters 401: 52-57, 2005

38. Vivoni A, Birke Rl, Foucault R, et al.
Ab Initio Frequency Calculations of Pyridine Adsorbed on An Adatom Model of A Sers Active Site Of A Silver Surface 
Journal Of Physical Chemistry B 107: 5547-5557, 2003

37. Zavarine Is, Khaselev O, Zhang Y
Spectroelectrochemical Study of The Effect of Organic Additives on The Electrodeposition of Tin 
Journal Of The Electrochemical Society 150: C202-C207, 2003

36. Wu DY, Hayashi M, Chang CH, et al.
Bonding Interaction, Low-Lying States And Excited Charge-Transfer States of Pyridine-Metal Clusters: Pyridine-M-N (M=Cu, Ag, Au; N=2-4) 
Journal Of Chemical Physics 118: 4073-4085, 2003

35. Cardini G, Muniz-Miranda M
Density Functional Study on The Adsorption of Pyrazole onto Silver Colloidal Particles 
Journal Of Physical Chemistry B 106: 6875-6880, 2002

34. Kudelski A
Raman And Electrochemical Characterization of 2-Mercaptoethanesulfonate Monolayers on Silver: A Comparison With Monolayers of 3-Mercaptopropionic Acid 
Langmuir 18: 4741-4747, 2002

33. Arenas Jf, Soto J, Tocon Il, et al.
The Role of Charge-Transfer States of The Metal-Adsorbate Complex in Surface-Enhanced Raman Scattering 
Journal Of Chemical Physics 116: 7207-7216, 2002

32. Michota A, Kudelski A, Bukowska J
Influence of Electrolytes on The Structure of Cysteamine Monolayer on Silver Studied by Surface-Enhanced Raman Scattering 
Journal Of Raman Spectroscopy 32: 345-350, 2001

31. Sanchez-Cortes S, Garcia-Ramos JV
Influence of Coverage In The Surface-Enhanced Raman Scattering of Cytosine And Its Methyl Derivatives on Metal Colloids: Chloride And Ph Effects 
Surface Science 473: 133-142, 2001

30. Qian W, Lin L, Deng YJ, et al.
Femtosecond Studies of Coherent Acoustic Phonons in Gold Nanoparticles Embedded In Tio2 Thin Films 
Journal Of Applied Physics 87: 612-614, 2000

29. Bosnick KA, Haslett Tl, Fedrigo S, et al.
Tricapped Tetrahedral Ag-7: A Structural Determination By Resonance Raman Spectroscopy and Density Functional Theory 
Journal Of Chemical Physics 111: 8867-8870, 1999

28. Francioso O, Sanchez-Cortes S, Tugnoli V, et al.
Characterization of Feat Fulvic Acid Fractions by Means of Ft-Ir, SERS, And H-1, C-13 NMR Spectroscopy 
Applied Spectroscopy 52: 270-277, 1998

27. Akemann W, Otto A, Schober HR
Raman Scattering by Bulk Phonons In Microcrystalline Silver and Copper via Electronic Surface Excitations 
Physical Review Letters 79: 5050-5053, 1997

26. Mukherjee KM, Misra TN
Surface Enhanced Raman Spectroscopic Study of 2- and 3-Chloro-Thiophene in Silver Hydrosol 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 53: 1439-1444, 1997

25. Daujotis V, Jasaitis D, Raudonis R
The Mechanism of Electroreduction of Silver Cyanide Complexes in Aqueous Electrolytes .1. Time-Resolved EQCM Study 
Electrochimica Acta 42: 1337-1344 1997

24. Daujotis V, Kairys V
The Mechanism of Electroreduction of Silver Cyanide Complexes in Aqueous Electrolytes .2. Interpretation of SERS Data 
Electrochimica Acta 42: 1345-1350 1997

23. Akemann W, Otto A, Schober H
Raman Scattering by Bulk Phonons In Microcrystalline Silver via Electronic Surface Excitations 
Journal Of The Brazilian Chemical Society 7: 443-451 1996

22. Choi YS, Kim JJ, Miyajima S
Diffusive Loss of Surface Adatoms and Surface Enhanced Raman Scattering Intensity 
Chemical Physics Letters 255: 45-48, 1996

21. Zhang HG, Liu FC, He TN, et al.
Time Dependent UV-Absorption Spectra and Surface Enhanced Raman Scattering of Pyridine in AgCl Sol 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 51: 1903-1908,

20. Markwort L, Hendra P
Microelectrode Substrates - A Solution to Current Problems in Surface-Enhanced Raman-Spectroscopy (SERS) 
Journal Of Electroanalytical Chemistry 397: 225-240, 1995

19. Tian ZQ, Chen YX, Mao BW, et al.
Extending Surface-Enhanced Raman-Spectroscopic Studies on Water at Gold Electrodes 
Chemical Physics Letters 240: 224-229, 1995

18. Kudelski A, Bukowska J
Influence of Photochemical Effects on Irreversible Loss of Active-Sites on SERS Active Silver Electrode 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 51: 573-578, 1995

17. Tian ZQ, Sigalaev SK, Zou SZ, et al.
The Observation of SERS of Water in aWide Potential Range from the Ag/NaClO4 System 
Electrochimica Acta 39: 2195-2196, 1994

16. Furtak TE
Electrochemical Surface Science 
Surface Science 299: 945-955, 1994

15. Schott JH, White HS
Tunneling Spectroscopy of Halogen Adlayers on Ag(111) Surfaces 
Journal Of Physical Chemistry 98: 297-302, 1994

(Ref 1-15) records are not available prior to 1994

D. Roy and T. E. Furtak, "Aspects of the Adsorption of Chloride on Silver Revealed through Surface Enhanced Raman Scattering'', Journal of  Electroanalytical Chemistry  228 (1987) 229-250. Times Cited: 23

Cited by:

23. Taylor CE, Pemberton JE, Goodman GG, et al.
Surface Enhancement Factors For Ag and Au Surfaces Relative to Pt Surfaces for Monolayers of Thiophenol 
Applied Spectroscopy 53: 1212-1221, 1999

22. Fang Y
Acid with Visible and Near-Infrared Excitations 
Journal Of Raman Spectroscopy 30: 85-89, 1999

21. Wang X, Wen H, He TJ, et al.
Enhancement Mechanism of SERS from Cyanine Dyes Adsorbed on Ag₂O Colloids 
Spectrochimica Acta Part A-Molecular And Biomolecular Spectroscopy 53: 2495-2504, 1997

20. He TJ, Liu FC
The Structures of Nanometer-Sized Silver Clusters and Their Photographic Properties 
Imaging Science Journal 45: 57-60 1997

19. He TJ, Liu FC
The Electronic Structures and Photographic Properties of Nanometer-Sized Silver Clusters 
Journal Of Photographic Science 44: 102-104 1996

18. Sneddon Dd, Gewirth AA
In Situ Characterization of Halide Adsorption and Ag-Halide Growth on Ag(111) Electrodes Using Atomic Force Microscopy 
Surface Science 343: 185-200, 1995

17. Benedetti AV, Sumodjo PTA, Nobe K, et al.
Electrochemical Studies of Copper, Copper-Aluminum And Copper-Aluminum-Silver Alloys - Impedance Results in 0.5M NaCl 
Electrochimica Acta 40: 2657-2668, 1995

16. Park SH, Lee E, Jang DJ, et al.
Adsorption of 2-Cyanonaphthalene on Silver Sol Investigated by Raman-Spectroscopy 
Bulletin Of The Korean Chemical Society 16: 130-134, 1995

15. Park SS, Kim K, Kim MS
Adsorption of Halides on Specific Reaction Sites on The Silver Sol Surface as Investigated by Raman-Spectroscopy 
Chemical Physics Letters 230: 171-176, 1994

14. Kwon YJ, Son DH, Ahn SJ, et al.
Vibrational Spectroscopic Investigation of Benzoic-Acid Adsorbed on Silver 
Journal Of Physical Chemistry 98: 8481-8487, 1994

13. Kwon YJ, Park SS, Kim K, et al..
Adsorption of 4-Hydroxybenzoic Acid on Silver Investigated by Surface-Enhanced Raman-Scattering 
Journal of Raman Spectroscopy 25: 655-661, 1994

(Ref 1-14) records are not available prior to 1994

D. Roy and A. C. Albrecht, "Thin-Sheet Photoconductivity in Liquids : Mobility Measurements Under the Influence of Space Charge'', Journal of  Physical Chemistry  93 (1989) 2475-2485. Times Cited: 11

Cited by:

11. Kadosh M, Gridin VV, Schechter I
Detection of Time-Resolved Photoionization Currents from Pesticide-Contaminated Vegetation 
Israel Journal Of Chemistry 41: 99-104 2001

10. Okamoto K, Hirota N, Terazima M
Diffusion of Electrically Neutral Radicals and Anion Radicals Created by Photochemical Reactions 
Journal Of The Chemical Society-Faraday Transactions 94 : 185-194, 1998

9. Burba ME, Lim SK, Albrecht AC
Relative Electron-Affinity of C-60 and C-70 and The Stokes-Law Radius of the C-70 Radical-Anion in N-Hexane By Time-of-Flight Mobility Measurements 
Journal Of Physical Chemistry 99: 11839-11843, 1995

8. Nakashima K, Kise M, Ogawa T, et al..
Time-Delayed 2-Color 2-Photon Ionization of Anthracene, Benzo[A]Pyrene And Pyrene In Cyclohexane 
Chemical Physics Letters 231: 81-85, 1994

7. Lim SK, Burba ME, Albrecht AC
Mobilities of Radical Cations and Anions, Dimer Radical-Anions, And Relative Electron-Affinities By Times of Flight In N-Hexane 
Journal Of Physical Chemistry 98: 9665-9675, 1994

6. Lim SK, Burba ME, Albrecht AC
The Stokes-Law Radius of The C-60 Radical-Anion In N-Hexane By Time-of-Flight Mobility Measurements 
Chemical Physics Letters 216: 405-408, 1993

(Ref 1-6) records are not available prior to 1994

T. D. Hewitt R. Gao and D. Roy,
"Effects of Surface Charge on the Second Harmonic Generation from a Cu Electrode'',
Surface Science  291 (1993) 233-241 Times Cited: 3

Cited by:

3. Konek CT, Musorrafiti MJ, Al-Abadleh HA, et al..
Interfacial Acidities, Charge Densities, Potentials, And Energies of Carboxylic Acid-Functionalized Silica/Water Interfaces Determined By Second Harmonic Generation 
Journal Of The American Chemical Society 126: 11754-11755, 2004

2. Sanchez RMT, Luna AMC, Zerbino JO
CO Adsorption on Copper In Alkaline Electrolytes: An Electrochemical And Ellipsometric Study 
Journal Of Colloid And Interface Science 264: 114-120, 2003

1. Matranga C, Guyot-Sionnest P
Absolute Intensity Measurements of The Optical Second-Harmonic Response of Metals From 0.9 To 2.5 EV 
Journal Of Chemical Physics 115: 9503-9512, 2001

Records are not available prior to 1994

G. Nagy and D. Roy, "Surface Charge Dependence of Second Harmonic Generation from a Ni Electrode'', Chemical Physics Letters  214 (1993) 197-202. Times Cited: 1

Cited By:

1. Xu Z, Li JW, Dong Y
Extracting The Free Energy of Adsorption And The Base-Ionization Constant of Triethylamine at The Silica/CH3CN Interface Using Nonlinear Optical Molecular Probes 
Langmuir 14: 1183-1188, 1998

G. Nagy and D. Roy, "Second Harmonic Generation from a Charged Ni Electrode with and without Anion Adsorption'',
Surface Science 320 (1994) 7-16. Times Cited: 1

Cited By:

Hagmann MJ,
Simulations of Laser-Assisted Field Emission within the Local Density Approximation of Kohn-Sham Density-Functional Theory
International Journal Of Quantum Chemistry 65: 857-865, 1997

D. Roy, "DC Field Induced Optical Second Harmonic Generation from Metal-electrochemical Interfaces'', Electrochimica Acta 39 (1994) 2699-2703. Times Cited: 3 Addition and Correction  40 (1995) 2557.

Cited By:

3. White, Attard, Vielstich, et al.
General Discussion
Faraday Discussions 121: 331-364 2002

2. Yagi I, Nakabayashi S, Uosaki K,
Excitation Wavelength Dependent Three-Wave Mixing at a CO-covered Platinum Electrode
Journal Of Physical Chemistry B 101: 7414-7421 , 1997

1. TamburelloLuca AA, Hebert P, Brevet PF, et al.
Surface Second Harmonic Study of Anion Adsorption at the Mercury Vertical Bar Electrolyte Interface
Journal Of Electroanalytical Chemistry 409: 123-129, 1996

G. Nagy and D. Roy, "Surface Charge Dependence of Second Harmonic Generation from Brass'', Langmuir 11 (1995) 711-715.Times Cited: 4

Cited By:

4. Bozzini B, Busson B, De Gaudenzi GP, et al.
An SFG and DFG investigation of polycrystalline Au, Au-Cu and Au-Ag-Cu electrodes in contact with aqueous solutions containing KCN 
Journal of Alloys and Compounds 427: 341-349 2007

3. Sanchez RMT, Luna AMC, Zerbino JO,
CO Adsorption on Copper in Alkaline Electrolytes: an Electrochemical and Ellipsometric Study
Journal Of Colloid And Interface Science 264: 114-120, 2003

2. Xu Z, Li JW, Dong Y,
Extracting the Free Energy of Adsorption and the Base-ionization Constant of Triethylamine at the Silica/CH₃CN Interface Using Nonlinear Optical Molecular Probes
Langmuir14: 1183-1188, 1998

1. He G, Elking MD, Xu Z,
Observation of Electrochemical Reduction in the Electrical Double Layer Region using Sum Frequency Generation Spectroscopy
Chemical Physics Letters 254: 184-190, 1996

G. Nagy and D. Roy, "Optical Second Harmonic Generation as a Probe of Selective Dissolution of Brass'',
Langmuir 11 (1995) 3457-3466. Addition and Correction, 12 (1996) 1696.Times Cited: 2

Cited By:

2. Bozzini B, Busson B, De Gaudenzi GP, et al.
An SFG and DFG investigation of polycrystalline Au, Au-Cu and Au-Ag-Cu electrodes in contact with aqueous solutions containing KCN 
Journal of Alloys and Compounds 427: 341-349 2007

1. Cepria G, Aranda C, Perez-Arantegui J, et al.,
Voltammetry of Immobilised Microparticles: a Powerful Analytical Technique to Study the Physical and Chemical Composition of Brass
Journal Of Electroanalytical Chemistry 513: 52-58, 2001

M. A. Lovell and D. Roy, "Optical Second Harmonic Generation from a Catalytically Active Molybdenum Electrode'',
Applied Surface Science 135 (1998) 46-52.Times Cited:1

Cited By:

Simpson LJ, Furtak TE,
Optical Second Harmonic Generation Spectroscopy from Ag(001) Using S-polarized Excitation
Journal of Electroanalytical Chemistry 500: 163-169 Sp. Iss. SI , 2001

M. A. Lovell, M. J. Walters and D. Roy,
"Surface Modification of Copper due to Co-Adsorbed Oxygen and Cadmium Probed with Optical Second Harmonic Generation",
Electrochimica Acta  43 (1998) 2101-2110. Times Cited: 2

Cited By:

2. Bozzini B, Busson B, De Gaudenzi GP, et al.
An SFG and DFG investigation of polycrystalline Au, Au-Cu and Au-Ag-Cu electrodes in contact with aqueous solutions containing KCN 
Journal of Alloys and Compounds 427: 341-349 2007

1. Size effects in electrochemistry, Petrii, O.A., Tsirlina, G.A., Uspekhi Khimii 70 (4), pp. 342-344, 2001

M.A. Lovell, M.J. Walters and D. Roy,
"Characterization of Electrodeposited Thin Film of Cadmium on Molybdenum using Optical Second Harmonic Generation",
Physical Chemistry Chemical Physics 1 (1999) 1985-1993. Times Cited: 3

Cited By:

3. Bozzini B, Busson B, De Gaudenzi GP, et al.
An SFG and DFG investigation of polycrystalline Au, Au-Cu and Au-Ag-Cu electrodes in contact with aqueous solutions containing KCN 
Journal of Alloys and Compounds 427: 341-349 2007

2. Sudha, V., Sangaranarayanan, M.V, Underpotential deposition of metals: Structural and thermodynamic considerations, Journal of Physical Chemistry B 106 (10), pp. 2699-2707, 2002

1. Petrii OA, Tsirlina GA,
Size Effects in Electrochemistry
Uspekhikhimii 70: 330-344 2001

M.J. Walters, C.M Pettit, F.X. Bock, D.P. Biss and D. Roy,
"Capacitance of a Metal-Liquid Interface During Anion Adsorption: Phase Selective Measurements in the Presence of D.C. Voltage Sweep and Finite Solution Resistance",
Surface and Interface Analysis 27 (1999) 1027-1036.Times Cited:1

Cited By:

Li X, Gewirth AA,
Potential-dependent Reorientation of Thiocyanate on Au Electrodes
Journal of The American Chemical Society 125: 11674-11683, 2003

D. Roy, "Comment on Molecular Orientation by Second Harmonic Generation: Self Assembled Monolayers",
Physical Review B 61 (2000) 13283-13286.Times Cited: 11

Cited By:

11. Zheng DS, Wang Y, Liu AA, et al., Microscopic molecular optics theory of surface second harmonic generation and sum-frequency generation spectroscopy based on the discrete dipole lattice model, INTERNATIONAL REVIEWS IN PHYSICAL CHEMISTRY, 27, 629-664, 2008

10. Zhang WK, Wang HF, Zheng DS
Quantitative measurement and interpretation of optical second harmonic generation from molecular interfaces 
Physical Chemistry Chemical Physics 8 (35): 4041-4052 2006

9. Sagara T, Kubo Y, Hiraishi K
Estimation of the orientation of heme in cytochrome c immobilized on a carboxylate-terminated alkanethiol monolayer on a Au electrode by the use of electroreflectance spectroscopy with polarized light incidence 
Journal Of Physical Chemistry B 110 (33): 16550-16558 AUG 24 2006

8. Mattu J, Johansson T, Holdcroft S, et al.
Highly ordered polymer films of amphiphilic, regioregular polythiophene derivatives 
Journal Of Physical Chemistry B 110 (31): 15328-15337 AUG 10 2006

7. Wang HF, Gan W, Lu R, et al.
Quantitative spectral and orientational analysis in surface sum frequency generation vibrational spectroscopy (SFG-VS) 
International Reviews in Physical Chemistry 24 (2): 191-256 2005

6. Simpson GJ, Dailey CA, Plocinik RM, et al.,
Direct Determination of Effective Interfacial Optical Constants by Nonlinear Optical Null Ellipsometry of Chiral Films
Analytical Chemistry 77: 215-224, 2005

5. Plocinik RM, Simpson GJ,
Polarization Characterization in Surface Second Harmonic Generation by Nonlinear Optical Null Ellipsometry
Analytica Chimica Acta 496: 133-142, 2003

4. Rao Y, Tao YS, Wang HF,
Quantitative Analysis of Orientational Order in the Molecular Monolayer by Surface Second Harmonic Generation
Journal Of Chemical Physics 119: 5226-5236, 2003

3. Galletto P, Unterhalt H, Rupprechter G,
The Molecular Orientation of CO on Pd(111): a Polarization-dependent SFG Study
Chemical Physics Letters 367: 785-790, 2003

2. Mishina E, Miyakita Y, Yu QK, et al.,
Nonlinear Optical Properties of Oligothiophene Self-Assembled Monolayers on Gold Substrate
Journal Of Chemical Physics 117: 4016-4021, 2002

1. Buck M, Himmelhaus M,
Vibrational Spectroscopy of Interfaces by Infrared-visible Sum Frequency Generation
Journal Of Vacuum Science & Technology A-Vacuum Surfaces And Films 19: 2717-2736, 2001

E. Hutter, S. Cha, J-F. Liu, J. Park, J. Yi, J. H. Fendler, and D. Roy,
 "Role of Substrate Metal in Gold Nanoparticle Enhanced Surface Plasmon Resonance Imaging", Journal of Physical Chemistry B 105 (2001) 8-12. Times Cited: 60

Cited By:

60. Adjustment and control of SERS activity of metal substrates by pressure, Xia LX, Jia Y, Liu GY, et al.Source: JOURNAL OF RAMAN SPECTROSCOPY, 41, 398-405, 2010

59. Distance- and Wavelength-Dependent Dielectric Function of Au Nanoparticles by Angle-Resolved Surface Plasmon Resonance Imaging, Golden MS, Bjonnes AC, Georgiadis RM, JOURNAL OF PHYSICAL CHEMISTRY C, 114, 8837-8843, 2010

58. Modeling of the SPR resolution enhancement for conventional and nanoparticle inclusive sensors by using statistical hypothesis testing, Barnett A, Goldys EM, OPTICS EXPRESS, 18, 9384-9397, 2010

57. Gold nanoparticle-based biosensors, Li YY, Schluesener HJ, Xu SQ, GOLD BULLETIN, 43, 29-41 2010

56. Nanoparticle enhanced surface plasmon resonance biosensing: Application of gold nanorods, Law WC, Yong KT, Baev A, et al., OPTICS EXPRESS, 17, 19041-19046, 2009

55. Jung J, Na K, Lee J, et al., Enhanced surface plasmon resonance by Au nanoparticles immobilized on a dielectric SiO2 layer on a gold surface, Anlytica Chimica Acta, 651, 91-97, 2009

54.Manesse M, Sanjines R, Stambouli V, et al., Preparation and Characterization of Silver Substrates Coated with Antimony-Doped SnO2 Thin Films for Surface Plasmon Resonance Studies, Langmuir, 25, 8036-804, 2009

53. Byun KM, Jang SM, Kim SJ, et al., Effect of target localization on the sensitivity of a localized surface plasmon resonance biosensor based on subwavelength metallic nanostructures, Journal of the Optical Society of America-A Optics Image Science and Vision, 26, 1027-1034, 2009

52. Li XH, Tamada K, Baba A, et al., pH-Controlled Two Dimensional Gold Nanoparticle Aggregates for Systematic Study of Local Surface Plasmon Coupling, Journal of NanoScience and Nanotechnology 9, 408-416, 2009

51. Yoon JK, Kim K, Shin KS, Raman Scattering of 4-Aminobenzenethiol Sandwiched between Au Nanoparticles and a Macroscopically Smooth Au Substrate: Effect of Size of Au Nanoparticles, Journal of Physical Chemistry C 113, 1769-1774, 2009

50. Wang FA, Wang JL, Liu XQ, et al., Nanoparticle-amplified surface plasmon resonance study of protein conformational change at interface, Talanta, 77, 628-634, 2008

49. Sensitivity Enhancement by Au Nanoparticles in Surface Plasmon Resonance Chemical Sensors
Choi SW, Kim HS, Kang WS, et al., JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 8, 4569-4573, 2008

48. Byun KM, Yoon SJ, Kim D, Effect of surface roughness on the extinction-based localized surface plasmon resonance biosensors, Applied Optics, 47, 5886-5892, 2008

47. Rueda A, Stemmler M, Bauer R, et al., Optical resonances of gold nanoparticles on a gold surface: quantitative correlation of geometry and resonance wavelength, New Journal of Physics, 10 Article Number: 113001, 2008

46. Yuan J, Oliver R, Aguilar MI, et al., Surface Plasmon Resonance Assay for Chloramphenicol, Aanlytical Chemistry 80, 8329-8333, 2008

45. Szunerits S, Castel X, Boukherroub R, Surface plasmon resonance investigation of silver and gold films coated with thin indium tin oxide layers: Influence on stability and sensitivity, Journal of Physical Chemistry C, 112, 15813-15817, 2008

44. Szunerits, S., Castel, X., Boukherroub, R., Preparation of electrochemical and surface plasmon resonance active interfaces: Deposition of indium tin oxide on silver thin films, Journal of Physical Chemistry C 112, 10883-10888, 2008

43. Rueda A, Stemmler M, Bauer R, et al., Localized plasmons seen by propagating surface plasmons: Unique determination of their dielectric response, Journal of Physical Chemistry C, 112, 14801-14811, 2008

42. Kawaguchi T, Shankaran DR, Kim SJ, et al., Surface plasmon resonance immunosensor using Au nanoparticle for detection of TNT, Sensors and Acutators B, 133, 467-472, 2008

41. Yoon SJ, Kim D , Target dependence of the sensitivity in periodic nanowire-based localized surface plasmon resonance biosensors, Journal of the Optical Society of America-A Optics Image Science and Vision, 25, 725-735, 2008

40. Shin KS, Park CS, Kang W, et al., Effect of macroscopically smooth silver substrate on the surface-enhanced Raman scattering of 4-nitrobenzenethiol adsorbed on powdered au, CHEMISTRY LETTERS, 37 , 180-181, 2008

39. Stewart ME, Anderton CR, Thompson LB, et al.,Nanostructured plasmonic sensors, CHEMICAL REVIEWS, 108, 494-521, 2008

38. Colloidal Au replacement assay for highly sensitive quantification of low molecular weight analytes by surface plasmon resonance, Takae, S., Akiyama, Y., Yamasaki, Y., Nagasaki, Y., Kataoka, K. Bioconjugate Chemistry18 (4), pp. 1241-1245, 2007

37. Spatial analysis of a microbead using surface plasmon resonance coupled fluorescence, Yoon, S.J., Kim, D., Progress in Biomedical Optics and Imaging- Proceedings of SPIE 6450, art. no. 64500O, 2007

36. Effect of metallic nanowires on the sensitivity enhancement of surface plasmon resonance biosensors, Byun, K.M., Yoon, S.J., Kim, D., Kim, S.J., Progress in Biomedical Optics and Imaging - Proceedings of SPIE 6450, art. no. 64500H, 2007

35. Size-dependent quantum dynamical influence of metal nanoparticles on surface plasmon resonance, Kang, D., Kim, D., Sim, E., Proceedings of SPIE - The International Society for Optical Engineering 6479, art. no. 64791Q, 2007

34. Wang YL, Zou XQ, Ren W, et al., Effect of silver nanoplates on Raman spectra of p-aminothiophenol assembled on smooth macroscopic gold and silver surface, Journal Of Physical Chemistry C 111 (8): 3259-3265, 2007

33. Wang F, Wang JL, Chen HJ, et al., Assembly process of CuHCF/MPA multilayers on gold nanoparticles modified electrode and characterization by electrochemical SPR, Journal Of Electroanalytical Chemistry 600 (2): 265-274 , 2007

32. Kim D, Yoon SJ, Effective medium-based analysis of nanowire-mediated localized surface plasmon resonance, Applied Optics 46 (6): 872-880, 2007

31. Investigation of metallic nanowire-based localized surface plasmon resonance optical biosensors using extinction spectra, Byun, K.M., Kim, S.J., Kim, D., Progress in Biomedical Optics and Imaging - Proceedings of SPIE 6099, art. no. 60990U, 2006

30. Effect of the nanowire cross-section on the sensitivity enhancement of localized surface plasmon resonance biosensors, Byun, K.M., Kim, D., Kim, S.J., Progress in Biomedical Optics and Imaging - Proceedings of SPIE 6099, art. no. 60990T, 2006

29. Oh S, Moon J, Kang T, et al., Preparation of a sensor substrate using functionalized mesoporous silica on a gold film for surface plasmon resonance (SPR) spectroscopy, Journal Of Electroceramics 17 (2-4): 999-1003, 2006

28. Kim K, Yoon SJ, Kim D, Nanowire-based enhancement of localized surface plasmon resonance for highly sensitive detection: a theoretical study, Optics Express 14 (25): 12419-12431, 2006

27. Li X, Husson SM, Adsorption of dansylated amino acids on molecularly imprinted surfaces: A surface plasmon resonance study , Biosensors& Bioelectronics 22 (3): 336-348, 2006

26. Kim D
Effect of resonant localized plasmon coupling on the sensitivity enhancement of nanowire-based surface plasmon resonance biosensors 
Journal of the Optical Society of America A, 23 (9): 2307-2314, 2006

25.Byun KM, Kim D, Kim SJ
Investigation of the profile effect on the sensitivity enhancement of nanowire-mediated localized surface plasmon resonance biosensors 
Sensors and Acutators B 117, 401-407, 2006

24. Byun KM, Kim SJ, Kim D
Profile effect on the feasibility of extinction-based localized surface plasmon resonance biosensors with metallic nanowires, Applied Optics 45 (14): 3382-3389 MAY 10 2006

23. Oh S, Moon J, Kang T, et al.
Enhancement of surface plasmon resonance (SPR) signals using organic functionalized mesoporous silica on a gold film Sensors and Acutators B 114 (2): 1096-1099, 2006

22. Dai CA, Wu YL, Lee YH, et al.
Fabrication of 2D ordered structure of self-assembled block copolymers containing gold nanoparticles
Journal of Crystal Growth 288 (1): 128-136, 2006

21. Sih BC, Wolf MO, Jarvis D, et al.
Surface-plasmon resonance sensing of alcohol with electrodeposited polythiophene and gold nanoparticle-oligothiophene films 
Journal of Applied Physics 98 (11): Art. No. 114314 2005

20. Kim K, Yoon JK
Raman scattering of 4-aminobenzenethiol sandwiched between Ag/Au nanoparticle and macroscopically smooth Au substrate 
Journal Of Physical Chemistry B 109 (44): 20731-20736, 2005

19. Kim K, Lee HS
Effect of Ag and Au nanoparticles on the SERS of 4-aminobenzenethiol assembled on powdered copper 
Journal Of Physical Chemistry B 109 (40): 18929-18934, 2005

18. Weikel AL, Conklin SD, Richardson JN
A multiple reflection attenuated total reflectance sensor incorporating a glass-indium tin oxide surface modified via direct attachment or film encapsulation of colloidal gold nanoparticles 
Sensors And Actuators B 110 (1): 112-119, 2005

17. Murphy CJ, San TK, Gole AM, et al.
Anisotropic metal nanoparticles: Synthesis, assembly, and optical applications 
Journal Of Physical Chemistry B 109 (29): 13857-13870, 2005

16. He YQ, Liu SP, Liu ZF, et al.
Resonance Rayleigh scattering spectral method for the determination of kanamycin with gold nanoparticle as probe , Acta Chimica Sinica 63: 997-1002, 2005

15. Rahman GMA, Guldi DM, Zambon E, et al.
Dispersable carbon nanotube/gold nanohybrids: Evidence for strong electronic interactions 
Small 1: 527-530, 2005

14. Byun KM, Kim SJ, Kim D
Design study of highly sensitive nanowire-enhanced surface plasmon resonance biosensors using rigorous coupled wave analysis 
Optics Express 13: 3737-3742, 2005

13. Orendorff CJ, Gole A, Sau TK, et al.
Surface-enhanced Raman spectroscopy of self-assembled monolayers: Sandwich architecture and nanoparticle shape dependence 
Analytical Chemistry 77 : 3261-3266, 2005

12. Ishii T, Suzuki Y, Akiyama Y, et al.
Construction of PEGylated gold colloid-assembled surface for high performance biosensor
Kobunshi Robunshu 62 (2): 81-86 2005

11. Lee JJ, Lee SJ, Kim K,
Surface-enhanced Raman Scattering of Self-assembled Monolayers Mediated by Physisorbed Ag Nanoparticles
Molecular Crystals And Liquid Crystals, 424: 1-5, 2004

10. Hutter E, Fendler JH,
Exploitation of Localized Surface Plasmon Resonance
Advanced Materials 16: 1685-1706, 2004

9. He L, Smith EA, Natan MJ, et al.,
The Distance-dependence of Colloidal Au-amplified Surface Plasmon Resonance
Journal Of Physical Chemistry B 108: 10973-10980, 2004

8. Chah S, Kumar CV, Hammond MR, et al.,
Denaturation and Renaturation of Self-Assembled Yeast Iso-1-Cytochrome C on Au
Analytical Chemistry 76 : 2112-2117, 2004

7. Ekgasit S, Thammacharoen C, Knoll W,
Surface Plasmon Resonance Spectroscopy Based on Evanescent Field Treatment
Analytical Chemistry 76: 561-568, 2004

6. Zhou YG, Zheng JW, Li XW, et al.,
Surface-enhanced Raman Spectroscopy of the Coupling Molecules in Self-assemblies of Silver Nanoparticles
Chemical Journal Of Chinese Universities-Chinese 24: 2177-2180, 2003

5. Seitz O, Chehimi MM, Cabet-Deliry E, et al.,
Preparation and Characterisation of Gold Nanoparticle Assemblies on Silanised Glass Plates
Colloids And Surfaces A-Physicochemical And Engineering Aspects 218: 225-239, 2003

4. Sarkar D, Somasundaran P,
Polymer Surfactant Kinetics using Surface Plasmon Resonance Spectroscopy Dodecyltrimethylammonium Chloride/Polyacrylic Acid System
Journal Of Colloid And Interface Science 261: 197-205, 2003

3. Sarkar D, Somasundaran P,
Overcoming Contamination in Surface Plasmon Resonance Spectroscopy
Langmuir 18: 8271-8277, 2002

2. Chah SW, Fendler JH, Yi JH,
In-situ Analysis of Stepwise Self-Assembled 1,6-Hexanedithiol Multilayers by Surface Plasmon Resonance Measurements
Chemical Communications 18: 2094-2095, 2002

1. Chah S, Fendler JH, Yi J,
Nanostructured Gold Hollow Microspheres Prepared on Dissolvable Ceramic Hollow Sphere Templates
Journal Of Colloid And Interface Science 250: 142-148, 2002

M. J. Walters, C. M. Pettit and D. Roy,
"Surface Kinetics of Eelectrodeposited Silver on Gold Probed with Potential Step and Optical Second Harmonic Generation Techniques",
Physical Chemistry Chemical Physics 3 (2001) 570-578. Times Cited: 2

Cited By:

2. Bozzini B, Busson B, De Gaudenzi GP, et al.
An SFG and DFG investigation of polycrystalline Au, Au-Cu and Au-Ag-Cu electrodes in contact with aqueous solutions containing KCN 
Journal of Alloys and Compounds 427 (1-2): 341-349, 2007

1. Sudha V, Sangaranarayanan MV,
Underpotential Deposition of Metals: Structural and Thermodynamic Considerations
Journal Of Physical Chemistry B 106: 2699-2707, 2002

M.J. Walters, J.E. Garland, C.M. Pettit, D.S. Zimmerman, D.R. Marr and D. Roy,
"Weak Adsorption of Anions on Gold: Measurement of Partial Charge Transfer Using Fast Fourier Transform Electrochemical Impedance Spectroscopy",
Journal of Electroanalytical Chemistry 499 (2001) 48-60. Addition and corrections: 526 (2002) 142. Times Cited: 10

Cited By:

11.Raoof JB, Ojani R, Chekin F, Immobilization of 1,2-naphthoquinone-4-sulfonic acid on gold electrode: application for cysteamine detection using Michael addition, JOURNAL OF MATERIALS SCIENCE , 44 , 2688-2693, 2009

10. Hung, C.-C., Lee, W.-H., Wang, Y.-S., Chang, S.-C., Wang, Y.-L. Investigation of galvanic corrosion between TaNx barriers and copper seed by electrochemical impedance spectroscopy, Electrochemical and Solid-State Letters 10 (10), pp. D100-D103, 2007

9. Moganty, S.S., Srinivasan, R., The role of arginine as a complexing agent in copper CMP, Materials Research Society Symposium Proceedings 914, pp. 207-212, 2006

8. M. Surya Sekhar and S. Ramanathan
Characterization of copper chemical mechanical polishing (CMP) in nitric acid–hydrazine based slurry for microelectronic fabrication
Thin Solid Films 504, 227-230, 2006.

7.Wang JB, Profitt JA, Pugia MJ, et al.
Au nanoparticle conjugation for impedance and capacitance signal amplification in biosensors
Analytical Chemistry 78: 1769-1773, 2006

6. Ragoisha GA, Bondarenko AS,
Potentiodynamic Electrochemical Impedance Spectroscopy
Electrochemica Acta 50: 1553-1563, 2005

5. Sadkowski A.
On Benefits of the Zero-pole Representation of Electrochemical Impedance Spectroscopy Data Close to Discontinuity Point
Polish Journal Of Chemistry 78: 1245-1253, 2004

4. Horvat-Radosevic V, Kvastek K,
Hydrogen/Anion Electrosorption at Rhodized Electrodes as Revealed by Electrochemical Impedance Spectroscopy
Journal Of Electroanalytical Chemistry 566: 451-465, 2004

3. Beltramo G, Santos E,
Characterisation of Chloride and Bromide Specific Adsorption Process on Silver Single Crystal Surfaces by Impedance Spectroscopy Part I. An Extended Model to Obtain the Charge Density from Impedance Spectra Applied to Ag(111) at Low Concentrations of Halides
Journal Of Electroanalytical Chemistry 556: 127-136, 2003

2. Beltramo G, Santos E, Schmickler W,
Investigation of Adsorbed Halide Layers on Single-Crystal Silver Electrodes by Second-Harmonic Generation
Langmuir 19: 4723-4727, 2003

1. Ragoisha GA, Bondarenko AS,
Potentiodynamic Electrochemical Impedance Spectroscopy. Copper Underpotential Deposition on Gold
Electrochemistry Communications 5: 392-395, 2003

E. Hutter, J. H. Fendler, and D. Roy,
"Surface Plasmon Resonance Method for Probing Interactions in Nanostructures: CdS Nanoparticles Linked to Au and Ag Substrates by Self-Assembled Hexanedithiol and Aminoethanethiol Monolayers",
Journal of Applied Physics 90 (2001) 1977-1985.
Times Cited: 13

Cited By:

13. Photoluminescence quenching and intensity fluctuations of CdSe-ZnS quantum dots on an Ag nanoparticle film, Matsumoto Y, Kanemoto R, Itoh T, et al., JOURNAL OF PHYSICAL CHEMISTRY C, 112, 1345-1350, 2008

12. Monitoring the covalent binding of quantum dots to functionalized gold surfaces by surface plasmon resonance spectroscopy, Cameron, P.J., Zhong, X., Knoll, W., Journal of Physical Chemistry C 111 (28), pp. 10313-10319, 2007

11. Fisk JD, Rooth M, Shaw AM, Gold nanoparticle adsorption and aggregation kinetics at the silica-water interface, Journal Of Physical Chemistry C 111 (6): 2588-2594 , 2007

10. Tsuboi K, Abe S, Fukuba S, et al., Second-harmonic spectroscopy of surface immobilized gold nanospheres above a gold surface supported by self-assembled monolayers, Journal Of Chemical Physics125 (17): Art. No. 174703 2006

9.John S. Mitchell, Yinqiu Wu, Christian J. Cook and Lyndsay Main
Sensitivity enhancement of surface plasmon resonance biosensing of small molecules
Analytical Biochemistry, In Press, Uncorrected Proof, Available online

8. Chah S, Hammond MR, Zare RN
Gold nanoparticles as a colorimetric sensor for protein conformational changes 
Chemistry & Biology 12 (3): 323-328, 2005

7. Tokareva I, Minko S, Fendler JH, et al.,
Nanosensors Based on Responsive Polymer Brushes and Gold Nanoparticle Enhanced Transmission Surface Plasmon Resonance Spectroscopy
Journal of The American Chemical Society 126: 15950-15951, 2004

6. Nagao O, Harada G, Sugawara T, et al.,
Small-angle X-ray Scattering Method to Determine the Size Distribution of Gold Nanoparticles Chemisorbed by Thiol Ligands
Japanese Journal of Applied Physics Part1 43: 7742-7746, 2004

5. Zhou Q, Zhao H, Li XW, et al.,
Enhancement of Raman Scattering of 1,4-Benzenedithiol by CdS Nanoparticles Assembled on a Silver Surface
Chemical Research in Chinese Universities 20: 138-141, 2004

4. Chah S, Kumar CV, Hammond MR, et al.,
Denaturation and Renaturation of Self-Assembled Yeast iso-1-Cytochrome C on Au
Analytical Chemistry 76: 2112-2117, 2004

3. Chen TC, Su WK, Lin YL,
A Surface Plasmon Resonance Study of Ag Nanoparticles in an Aqueous Solution
Japanese Journal of Applied Physics Part2 - Letters 43 : L119-L122, 2004

2. Okamoto T, Yamaguchi I,
Optical Absorption Study of the Surface Plasmon Resonance in Gold Nanoparticles Immobilized onto a Gold Substrate by Self-assembly Technique
Journal Of Physical Chemistry B 107: 10321-10324, 2003

1. Chah SW, Fendler JH, Yi JH,
In-situ analysis of stepwise self-assembled 1,6-Hexanedithiol multilayers by surface plasmon resonance measurements
Chemical Communications 18: 2094-2095, 2002

D. Roy,
"Surface Plasmom Resonance Spectroscopy of Dielectric Coated Gold and Silver Films on Supporting Metal Layers: Reflectivity Formulas in the Kretschmann Formalism",
Applied Spectroscopy  55 (2001) 1046-1052.
Times Cited: 12

Cited By:

12. Determination of surface selection rule of surface plasmon resonance near-infrared Spectroscopy by using a Langmuir-Blodgett film, Ohara K, Ikehata A, Hirano Y, et al., ANALYTICAL CHEMISTRY, 79, 8406-8410 2007

11. Kishioka, S.-Y., Nishino, J., Sakaguchi, H., Fabrication of stable, highly flat gold film electrodes with an effective thickness on the order of 10 nm, Analytical Chemistry79 (17), pp. 6851-6856, 2007

10. Iga, M., Seki, A., Watanabe, K., Gold thickness dependence of SPR-based hetero-core structured optical fiber sensor, Sensors and Actuators, 106 (1 SPEC. ISS.), pp. 363-368, 2005

9. Liang-Yu Chen, Ming-Chia Wu, Mao-Tsun Chou, Li-An Kao, Shean-Jen Chen and Wen-Yih Chen
Effects of solute-matrix interaction on monitoring the conformational changes of immobilized proteins by surface plasmon resonance sensor
Talanta,67 (4): 862-867, 2005

8. Ekgasit S, Thammacharoen C, Yu F, et al.
Influence of the metal film thickness on the sensitivity of surface plasmon resonance biosensors 
Applied Spectroscopy 59: 661-667, 2005

7. Ekgasit S, Tangcharoenbumrungsuk A, Yu F, et al.
Resonance shifts in SPR curves of nonabsorbing, weakly absorbing, and strongly absorbing dielectrics 
Sensors And Actuators B 105: 532-541 , 2005

6. Rooney JM, Hall EAH,
Surface plasmon resonance: Theoretical evolutionary design optimization for a model analyte sensitive absorbing-layer system
Analytical Chemistry 76: 6861-6870, 2004

5. Wilkop T, Wang ZZ, Cheng Q,
Analysis of mu-contact printed protein patterns by SPR imaging with a LED light source
Langmuir 20: 11141-11148, 2004

4. Ekgasit S, Stengel G, Knoll W,
Concentration of dye-labeled nucleotides incorporated into DNA determined by surface plasmon resonance-surface plasmon fluorescence spectroscopy
Analytical Chemistry 76: 4747-4755, 2004

3. Ekgasit S, Thammacharoen C, Knoll W,
Surface plasmon resonance spectroscopy based on evanescent field treatment
Analytical Chemistry 76: 561-568, 2004

2. Culha M, Lavrik NV, Schell FM, et al.,
Characterization of volatile, hydrophobic cyclodextrin derivatives as thin films for sensor applications
Sensors and Acutators B 92: 171-180, 2003

1. Zynio SA, Samoylov AV, Surovtseva ER, et al.,
Bimetallic layers increase sensitivity of affinity sensors based on surface plasmon resonance
Sensors 2: 62-70, 2002

S. Chah, E. Hutter, D. Roy, J. H.Fendler and J. Yi,
"The Effect of Substrate Metal on 2-Aminoethanethiol and Nanoparticle Enhanced Surface Plasmon Resonance Imaging",
Chemical Physics 272 (2001) 127-136.
Times Cited: 26

Cited By:

26. Evaluation of polymer coatings for ammonia vapor sensing with surface plasmon resonance spectroscopy, Banerji S, Peng W, Kim YC, et al., SENSORS AND ACTUATORS B-CHEMICAL Volume: 147 . 255-262, 2010

25. Surface Plasmon Resonance on Gold and Silver Films Coated with Thin Layers of Amorphous Silicon-Carbon Alloys, Touahir L, Niedziolka-Jonsson J, Galopin E, et al., LANGMUIR, 26, 6058-6065, 2010

24. Preparation of Amino-functionalized Multiwall Carbon Nanotube/Gold Nanoparticle Composites, Ding MY, Zheng R, CHINESE JOURNAL OF CHEMISTRY, 28, 208-212 2010

23. Banerji, S., Menegazzo, N., Kim, Y.-C., Booksh, K.S., Screening of Polymer coatings for surface plasmon resonance sensing of ammonia vapor, Progress in Biomedical Optics and Imaging - Proceedings of SPIE 7313, art. no. 73130H, 2009

22. J., Kim, Y., Surface plasmon resonance investigation of silver and gold films coated with thin indium tin oxide layers: Influence on stability and sensitivity, Journal of Nanoscience and Nanotechnology 8 (10), pp. 5026-5029, 2008

21. Szunerits S, Castel X, Boukherroub R, Surface plasmon resonance investigation of silver and gold films coated with thin indium tin oxide layers: Influence on stability and sensitivity, Journal of Physical Chemistry C, 112, 15813-15817, 2008

20 Szunerits, S., Castel, X., Boukherroub, R., Preparation of electrochemical and surface plasmon resonance active interfaces: Deposition of indium tin oxide on silver thin films, Journal of Physical Chemistry C 112, 10883-10888, 2008

19. Chah, S., Zare, R.N., Surface plasmon resonance study of vesicle rupture by virus-mimetic attack, Physical Chemistry Chemical Physics10, 3203-3208, 2008

18. Willner I, Baron R, Willner B
Integrated nanoparticle-biomolecule systems for biosensing and bioelectronics 
Biosensors and Bioelectronics 22 (9-10): 1841-1852 APR 15 2007

17. Weinberger MR, Rentenberger S, Kern W
Selective immobilization of gold nanoparticles on the surface of a photoreactive polymer 
Monatshefte fur Chemie 138 (4): 309-314 APR 2007

16. Wang JL, Wang F, Zou XQ, et al., Surface plasmon resonance and electrochemistry for detection of small molecules using catalyzed deposition of metal ions on gold substrate, ElectroChemistry Communications 9 (2): 343-347, 2007

15. Hussain S, Pal AK, Synthesis of composite films of mixed Ag-Cu nanocrystallites embedded in DLC matrix and associated surface plasmon properties, Applied Surface Science 253 (7): 3649-3657, 2007

14. Riskin M, Katz E, Gutkin V, et al.
Photochemically controlled electrochemical deposition and dissolution of Ag-0 nanoclusters on Au electrode surfaces, Langmuir 22 (25): 10483-10489 , 2006

13. Li XH, Tamada K, Baba A, et al.
Estimation of dielectric function of biotin-capped gold nanoparticles via signal enhancement on surface plasmon resonance, Journal Of Physical Chemistry B 110 (32): 15755-15762 AUG 17 2006

12.Jungwoo Moon, Taewook Kang, Seogil Oh, Surin Hong and Jongheop Yi
In situ sensing of metal ion adsorption to a thiolated surface using surface plasmon resonance spectroscopy. Journal of Colloid and Interface Science, 298, 543-549 2006

11.Riskin M, Basnar B, Chegel VI, et al.
Switchable surface properties through the electrochemical or biocatalytic generation of Ag-0 nanoclusters on monolayer-functionalized electrodes 
Journal Of The American Chemical Society 128 (4): 1253-1260 2006

10. John S. Mitchell, Yinqiu Wu, Christian J. Cook and Lyndsay Main
Sensitivity enhancement of surface plasmon resonance biosensing of small molecules 
Analytical Biochemistry, 343: 125-135, 2005

9. Kang TW, Moon J, Oh S, et al.
Direct observation of a cooperative mechanism in the adsorption of heavy metal ions to thiolated surface by in-situ surface plasmon resonance measurements 
Chemical Communications 18: 2360-2362 2005

8. Chah S, Hammond MR, Zare RN
Gold nanoparticles as a colorimetric sensor for protein conformational changes 
Chemistry & Biology 12 (3): 323-328, 2005

7. Hutter E, Fendler JH,
Exploitation Of Localized Surface Plasmon Resonance
Advanced Materials 16 : 1685-1706, 2004

6. He L, Smith EA, Natan MJ, et al.,
The Distance-Dependence Of Colloidal Au-Amplified Surface Plasmon Resonance
Journal Of Physical Chemistry B 108 : 10973-10980, 2004

5. Chah S, Kumar CV, Hammond MR, et al.,
Denaturation And Renaturation Of Self-Assembled Yeast Iso-1-Cytochrome C On Au
Analytical Chemistry 76: 2112-2117, 2004

4. Zayats M, Kharitonov Ab, Pogorelova SP, et al.
Probing Photoelectrochemical Processes In Au-Cds Nanoparticle Arrays By Surface Plasmon Resonance: Application For The Detection Of Acetylcholine Esterase Inhibitors
Journal Of The American Chemical Society 125: 16006-16014, 2003

3. Zayats M, Pogorelova SP, Kharitonov AB,et al.
An Nanoparticle-Enhanced Surface Plasmon Resonance Sensing Of Biocatalytic Transformations
Chemistry-A European Journal 9 : 6108-6114, 2003

2. Chah SW, Fendler Jh, Yi JH,
In-Situ Analysis Of Stepwise Self-Assembled 1,6-Hexanedithiol Multilayers By Surface Plasmon Resonance Measurements
Chemical Communications 18: 2094-2095, 2002

1. Chah S, Fendler JH, Yi J,
Nanostructured Gold Hollow Microspheres Prepared On Dissolvable Ceramic Hollow Sphere Templates
Journal Of Colloid And Interface Science 250: 142-148, 2002

E. Hutter, J. H. Fendler, and D. Roy,
"Surface Plasmon Resonance Studies of Gold and Silver Nanoparticles Linked to Gold and Silver Substrates by 2-Aminoethanethiol and 1,6-Hexanedithiol",
Journal of Physical Chemistry B 105 (2001) 11159-11168.Times Cited: 81

Cited by:

81. Development of Nanostructured Plasmonic Substrates for Enhanced Optical Biosensing, Byun KM, JOURNAL OF THE OPTICAL SOCIETY OF KOREA, 14, 65-76 2010

80. Use of Reversal Nanoimprinting of Nanoparticles to Prepare Flexible Waveguide Sensors Exhibiting Enhanced Scattering of the Surface Plasmon Resonance, Wan DH, Chen HL, Lai YT, et al.Source: ADVANCED FUNCTIONAL MATERIALS, 20 , 1742-1749, 2010

79. Improved functionality of antibody-colloidal gold conjugates with the aid of lipoamide-grafted N-[tris(hydroxymethyl)methyl]acrylamide polymers, Albers WM, Munter T, Laaksonen P, et al., JOURNAL OF COLLOID AND INTERFACE SCIENCE , 348, 1-8, 2010

78. Evaluation of polymer coatings for ammonia vapor sensing with surface plasmon resonance spectroscopy, Banerji S, Peng W, Kim YC, et al., SENSORS AND ACTUATORS B-CHEMICAL, 147, 255-262, 2010

77. Small Noncytotoxic Carbon Nano-Onions: First Covalent Functionalization with Biomolecules, Luszczyn J, Plonska-Brzezinska ME, Palkar A, et al., CHEMISTRY-A EUROPEAN JOURNAL, 16, 4870-4880 2010

76. Distance- and Wavelength-Dependent Dielectric Function of Au Nanoparticles by Angle-Resolved Surface Plasmon Resonance Imaging, Golden MS, Bjonnes AC, Georgiadis RM, JOURNAL OF PHYSICAL CHEMISTRY C, 114, 8837-8843, 2010

75. Title: Modeling of the SPR resolution enhancement for conventional and nanoparticle inclusive sensors by using statistical hypothesis testing, Barnett A, Goldys, OPTICS EXPRESS, 18, 9384-9397 2010

74. Title: Propagating Surface Plasmon Resonance on Microhole Arrays , Live LS, Bolduc OR, Masson JF, ANALYTICAL CHEMISTRY, 82, 3780-3787, 2010

73. Title: Nanoparticle-based biologic mimetics Author(s): Cliffel DE, Turner BN, Huffman BJSource: WILEY INTERDISCIPLINARY REVIEWS-NANOMEDICINE AND NANOBIOTECHNOLOGY, 1, 47-59, 2009

72. Title: Optical Response of Gold-Nanoparticle-Amplified Surface Plasmon Resonance Spectroscopy, Uchiho Y, Shimojo M, Furuya K, et al., JOURNAL OF PHYSICAL CHEMISTRY C, 114 . 4816-4824, 2010

71. Effect of Medium for Enhanced Nanosensing: DDA Theory vs Experimental Studies of Ag Nanoparticle Assemblies Author(s): Wang SL, Pedersen DB, JOURNAL OF PHYSICAL CHEMISTRY C Volume: 114 Issue: 7 Pages: 2861-2866, 2010

70. Au Nanoparticle Coupled- Surface Plasmon Resonance Immuno-sensor for Sensitivity Enhancement Author(s): Kim HS, Kim JH, Ko SH, et al. Conference Information: Nanotechnology Conference and Trade Show (Nanotech 2008), JUN 01-05, 2008 Boston, MASource: NSTI NANOTECH 2008, VOL 1, TECHNICAL PROCEEDINGS - MATERIALS, FABRICATION, PARTICLES, AND CHARACTERIZATION Pages: 483-486 Published: 2008

69. Duan JM, Li XF, Yao L, et al., Local field enhancement of pair arrays of silver nanospheres, OPTICS COMMUNICATIONS, 282, 4005-4008, 2009

68. Manesse M, Sanjines R, Stambouli V, et al., Preparation and Characterization of Silver Substrates Coated with Antimony-Doped SnO2 Thin Films for Surface Plasmon Resonance Studies, LANGMUIR, 25, 8036-8041, 2009

67. Ultrasensitive Surface Plasmon Resonance Detection of Trinitrotoluene by a Bis-aniline-Cross-Linked Au Nanoparticles Composite, Riskin M, Tel-Vered R, Lioubashevski O, et al. Journal Of The American Chemical Society, 131, 7368-7378, 2009

66. Leaflike Structured Multilayer Assembly of Dimercaptothiadiazole on Gold Surface Author(s): Kalimuthu P, Kalimuthu P, John SA, JOURNAL OF PHYSICAL CHEMISTRY C , 113 , 10176-10184, 2009

65. Using Spectroscopic Ellipsometry to Characterize and Apply the Optical Constants of Hollow Gold Nanoparticles, Wan DH, Chen HL, Lin YS, et al. ACS NANO , 3' 960-970 Published: APR 2009

64. Matsui J, Takayose M, Akamatsu K, et al., Molecularly imprinted nanocomposites for highly sensitive SPR detection of a non-aqueous atrazine sample, ANALYST, 134, 80-86, 2009

63. Steinbruck A, Csaki A, Ritter K, et al., Gold-silver and silver-silver nanoparticle constructs based on DNA hybridization of thiol- and amino-functionalized oligonucleotides, JOURNAL OF BIOPHOTONICS, 1, 104-113, 2008

62. Rueda A, Stemmler M, Bauer R, et al., Optical resonances of gold nanoparticles on a gold surface: quantitative correlation of geometry and resonance wavelength, New Journal of Physics, 10 Article Number: 113001, 2008

61. Yuan J, Oliver R, Aguilar MI, et al., Surface Plasmon Resonance Assay for Chloramphenicol, ANALYTICAL CHEMISTRY 80, 8329-8333, 2008

60. Szunerits S, Castel X, Boukherroub R, Surface plasmon resonance investigation of silver and gold films coated with thin indium tin oxide layers: Influence on stability and sensitivity, Journal of Physical Chemistry C, 112, 15813-15817, 2008

59. Rueda A, Stemmler M, Bauer R, et al., Localized plasmons seen by propagating surface plasmons: Unique determination of their dielectric response, Journal of Physical Chemistry C, 112, 14801-14811, 2008

58. Szunerits S, Castel X, Boukherroub R, Preparation of electrochemical and surface plasmon resonance active interfaces: Deposition of indium tin oxide on silver thin films, Journal of Physical Chemistry C, 112, 10883-10888, 2008

57. Dablemont C, Lang P, Mangeney C, et al., FTIR and XPS study of Pt nanoparticle functionalization and interaction with alumina, LANGMUIR, 24, 5832-5841, 2008

56. Stewart ME, Anderton CR, Thompson LB, et al., Nanostructured plasmonic sensors, CHEMICAL REVIEWS, 108, 494-521, 2008

55. Chemical sensors based on molecularly modified metallic nanoparticles, Haick H, JOURNAL OF PHYSICS D-APPLIED PHYSICS, 40, 7173-7186, 2007

54.Combination of nanoholes with metal nanoparticles-fabrication and characterization of novel plasmonic nanostructures, Csaki A, Steinbrueck A, Schroeter S, et al., PLASMONICS Volume: 1 Issue: 2-4, 147-155, 2006

53.Preparation and optical characterization of core-shell bimetal nanoparticles, Steinbruck A, Csaki A, Festag G, et al., PLASMONICS, 1, 79-85 Published: 2006

52. Density-dependent optical response of gold nanoparticle monolayers on silicon substrates, Wang DS, Lin CW, OPTICS LETTERS Volume: 32, 2128-2130, 2007

51. Grafted 2D assembly of colloidal metal nanoparticles for application as a variable capacitor, Lidgi-Guigui N, Dablemont C, Veautier D, et al., ADVANCED MATERIALS Volume: 19 Issue: 13 Pages: 1729, 2007

50.Investigation of self-assembled monolayers of two short-chain molecules by the electrochemical titration method, Zhu YS, Hou DY, Shao HB, CHINESE JOURNAL OF ANALYTICAL CHEMISTRY Volume: 35 Issue: 2 201-205, 2007

49. Effect of silver nanoplates on Raman spectra of p-aminothiophenol assembled on smooth macroscopic gold and silver surface, Wang, Y., Zou, X., Ren, W., Wang, W., Wang, E., Journal of Physical Chemistry C 111 (8), pp. 3259-3265, 2007.

48. Assembly process of CuHCF/MPA multilayers on gold nanoparticles modified electrode and characterization by electrochemical SPR, Wang, F., Wang, J., Chen, H., Dong, S. Journal of Electroanalytical Chemistry 600 (2), pp. 265-274, 2007

47. Surface plasmon resonance and electrochemistry for detection of small molecules using catalyzed deposition of metal ions on gold substrate, Wang, J., Wang, F., Zou, X., Xu, Z., Dong, S., Electrochemistry Communications 9 (2), pp. 343-347, 2007

46. Colloid-gold nanoparticle enhanced detection sensitivity of paired surface plasma waves biosensor, Wu, H.-T., Chen, Y.-L., Huang, Y.-C., Liu, W.-C., Ng, M.-Y., Chang, Y.-F., Hsieh, B.-Y., Chou, C. Progress in Biomedical Optics and Imaging - Proceedings of SPIE 6447, art. no. 64470S, 2007

45. Fluorescence and interactions with thiol compounds of Nile Red-adsorbed gold nanoparticles, Lee, K.-H., Chen, S.-J., Jeng, J.-Y., Cheng, Y.-C., Shiea, J.-T., Chang, H.-T., Journal of Colloid and Interface Science 307 (2), pp. 340-348, 2007

44. Zhu YS, Hou DY, Shao HB, Investigation of self-assembled monolayers of two short-chain molecules by the electrochemical titration method, Chinese Journal of Analytical Chemistry 35 (2): 201-205 2007

43. Zhai PM, Guo J, Xiang J, et al., Electrochemical surface plasmon resonance spectroscopy at bilayered silver/gold films, Journal Of Physical Chemistry C 111 (2): 981-986 JAN 18 2007

42. Wang YL, Zou XQ, Ren W, et al., Effect of silver nanoplates on Raman spectra of p-aminothiophenol assembled on smooth macroscopic gold and silver surface, Journal Of Physical Chemistry C 111 (8): 3259-3265, 2007

41. Wang JL, Wang F, Zou XQ, et al., Surface plasmon resonance and electrochemistry for detection of small molecules using catalyzed deposition of metal ions on gold substrate, Electrochemistry Communications 9 (2): 343-347, 2007

40. Wang F, Wang JL, Chen HJ, et al., Assembly process of CuHCF/MPA multilayers on gold nanoparticles modified electrode and characterization by electrochemical SPR, Journal of Electroanalytical Chemistry 600 (2): 265-274, 2007

39. Lee KH, Chen SJ, Jeng JY, et al., Fluorescence and interactions with thiol compounds of Nile Red-adsorbed gold nanoparticles, Journal of Colloid and Interface Science 307 (2): 340-348, 2007

38. Hong S, Kang T, Moon J, et al., Surface plasmon resonance analysis of aqueous copper ions with amino-terminated self-assembled monolayers, Colloids and Surface, 292 (2-3): 264-270, 2007

37. . Kang T, Hong S, Choi I, et al.
Reversible pH-driven conformational switching of tethered superoxide dismutase with gold nanoparticle enhanced surface plasmon resonance spectroscopy 
Journal Of The American Chemical Society 128,12870-12878, 2006

36. Bharara MS, Parkin S, Atwood DA
Two-dimensional network acquired by Pb(II)-2-aminoethanethiolate 
Inorganica Chimica Acta 359 (10): 3375-3378 2006

35. Lau KHA, Huang C, Yakovlev N, et al.
Direct adsorption and monolayer self-assembly of acetyl-protected dithiols 
Langmuir 22 (7): 2968-2971 MAR 28 2006

34. Cozzoli PD, Curri ML, Giannini C, et al.
Synthesis of TiO2-Au composites by titania-nanorod-assisted generation of gold nanopartictes at aqueous/nonpolar interfaces 
Small 2 (3): 413-421 MAR 2006

33. Liu X, Sun Y, Song DQ, et al.
Enhanced optical immuosensor based on surface plasmon resonance for determination of transferrin 
Talanta 68 (3): 1026-1031 JAN 15 2006

32.Sih BC, Wolf MO, Jarvis D, et al.
Surface-plasmon resonance sensing of alcohol with electrodeposited polythiophene and gold nanoparticle-oligothiophene films 
Journal of Applied Physics 98 (11): Art. No. 114314 2005

31. Chah S, Noolandi J, Zare RN
Undulatory delamination of thin polymer films on gold surfaces 
Journal Of Physical Chemistry B 109 (41): 19416-19421, 2005

30. Weikel AL, Conklin SD, Richardson JN
A multiple reflection attenuated total reflectance sensor incorporating a glass-indium tin oxide surface modified via direct attachment or film encapsulation of colloidal gold nanoparticles 
Sensors And Actuators B 110 (1): 112-119, 2005

29. Wang XJ, Haasch RT, Bohn PW
Anisotropic hydrogel thickness gradient films derivatized to yield three-dimensional composite materials 
Langmuir 21: 8452-8459, 2005

28. Supriya L, Claus RO
Colloidal Au/linker molecule multilayer films: Low-temperature thermal coalescence and resistance changes Chemistry of Materials 17 : 4325-4334, 2005

27. Kang T, Hong SR, Moon J, et al.
Fabrication of reusable sensor for detection of Cu2+ in an aqueous solution using a self-assembled monolayer with surface plasmon resonance spectroscopy 
Chemical Communications 29: 3721-3723, 2005

26. Szekeres M, Szechenyi A, Stepan K, et al.
Layer-by-layer self-assembly preparation of layered double hydroxide/polyelectrolyte nanofilms monitored by surface plasmon resonance spectroscopy 
Colloid And Pollymer Science 283: 937-945, 2005

25. Cao LY, Diao P, Tong LM, et al.
Surface-enhanced Raman scattering of p-aminothiophenol on a Au(core)/Cu(shell) nanoparticle assembly 
Chemphyschem 6 (5): 913-918, 2005

24. Ekgasit S, Thammacharoen C, Yu F, et al.
Influence of the metal film thickness on the sensitivity of surface plasmon resonance biosensors 
Applied Spectroscopy 59: 661-667, 2005

23. Ekgasit S, Tangcharoenbumrungsuk A, Yu F, et al.
Resonance shifts in SPR curves of nonabsorbing, weakly absorbing, and strongly absorbing dielectrics 
Sensors And Actuators B 105: 532-541, 2005

22. Habib A, Tabata M, Wu YG
Formation of gold nanoparticles by Good's buffers 
Bulletin Of The Chemical Society Of Japan 78: 262-269, 2005

21. Aslan MM, Menguc MP, Videen G
Characterization of metallic nano-particles via surface wave scattering: B. Physical concept and numerical experiments 
Journal Of Quantitative Spectroscopy & Radiative Transfer 93 : 207-217 Sp. Iss. SI , 2005

20. Hutter E, Fendler JH,
Exploitation Of Localized Surface Plasmon Resonance
Advanced Materials 16: 1685-1706, 2004

19. Selvakannan PR, Swami A, Srisathiyanarayanan D, et al.
Synthesis Of Aqueous Au Core-Ag Shell Nanoparticles Using Tyrosine As A Ph-Dependent Reducing Agent And Assembling Phase-Transferred Silver Nanoparticles At The Air-Water Interface
Langmuir 20: 7825-7836, 2004

18. Cao LY, Tong LM, Diao P, et al.
Kinetically Controlled Pt Deposition Onto Self-Assembled Au Colloids: Preparation Of Au (Core)-Pt (Shell) Nanoparticle Assemblies
Chemistry Of Materials 16: 3239-3245, 2004

17. He L, Smith EA, Natan MJ, et al.,
The Distance-Dependence Of Colloidal Au-Amplified Surface Plasmon Resonance
Journal Of Physical Chemistry B 108: 10973-10980, 2004

16. Sharma AK, Gupta BD,
Absorption-Based Fiber Optic Surface Plasmon Resonance Sensor: A Theoretical Evaluation
Sensors And Actuators B-Chemical 100: 423-431, 2004

15. Zou Sl, Janel N, Schatz GC,
Silver Nanoparticle Array Structures That Produce Remarkably Narrow Plasmon Lineshapes
Journal Of Chemical Physics 120: 10871-10875, 2004

14. Chah S, Kumar CV, Hammond MR, et al.,
Denaturation And Renaturation Of Self-Assembled Yeast Iso-1-Cytochrome C on Au
Analytical Chemistry 76: 2112-2117, 2004

13. Cozzoli PD, Comparelli R, Fanizza E,et al.,
Photocatalytic Synthesis Of Silver Nanoparticles Stabilized By Tio2 Nanorods: A Semiconductor/Metal Nanocomposite In Homogeneous Nonpolar Solution
Journal Of The American Chemical Society 126: 3868-3879, 2004

12. Roldughin VI,
Self-Assembly Of Nanoparticles At Interfaces
Uspekhi Khimii 73: 123-156, 2004

11. Ekgasit S, Thammacharoen C, Knoll W,
Surface Plasmon Resonance Spectroscopy Based On Evanescent Field Treatment
Analytical Chemistry 76: 561-568, 2004

10. Jiang CY, Markutsya S, Tsukruk VV,
Collective And Individual Plasmon Resonances In Nanoparticle Films Obtained By Spin-Assisted Layer-By-Layer Assembly
Langmuir 20: 882-890, 2004

9. Haes AJ, Zou SL, Schatz GC, et al.,
A Nanoscale Optical Biosensor: The Long Range Distance Dependence Of The Localized Surface Plasmon Resonance Of Noble Metal Nanoparticles
Journal Of Physical Chemistry B 108: 109-116, 2004

8. Lin XZ, Teng XW, Yang H,
Direct Synthesis of Narrowly Dispersed Silver Nanoparticles Using A Single-Source Precursor
Langmuir 19: 10081-10085, 2003

7. Hutter E, Pileni MP,
Detection of DNA Hybridization By Gold Nanoparticle Enhanced Transmission Surface Plasmon Resonance Spectroscopy
Journal Of Physical Chemistry B 107: 6497-6499, 2003

6. Park JE, Park SG, Koukitu A, et al.,
Chemical Reaction of Pd Nanoparticles with Organosulfur Compound And N, N '-Diphenyl-P-Phenylenediamine as aModel Compound Of Polyaniline
Journal Of New Materials For Electrochemical Systems 6: 137-141, 2003

5. Fujii E, Shimizu K, Kurokawa Y, et al.,
Determination of Glycosylated Albumin Using Surface Plasmon Resonance
Sensor
Bunseki Kagaku 52: 311-317, 2003

4. Zynio SA, Samoylov AV, Surovtseva ER, et al.,
Bimetallic Layers Increase Sensitivity of Affinity Sensors Based On Surface Plasmon Resonance
Sensors 2: 62-70, 2002

3. Mulchan NM, Rodriguez M, O'shea K, et al.,
Application of A High-Resolution Spr Technique For Monitoring Real-Time Metal/Dielectric Interactions
Sensors And Actuators B 88: 132-137, 2003

2. Sarkar D, Somasundaran P,
Overcoming Contamination In Surface Plasmon Resonance Spectroscopy
Langmuir 18: 8271-8277, 2002

1. Shao Y, Jin YD, Dong SJ,
DNA-Templated Assembly And Electropolymerization of Aniline On Gold Surface
Electrochemistry Communications 4: 773-779, 2002

D. Roy, "Optical Characterization of Multi-Layer Thin Films Using the Surface Plasmon Resonance Method: A Six-Phase Model Based on the Kretschmann Formalism",
Optics Communications 200 (2001) 119-130. Times Cited: 13

Cited By:

13. Hastanin, J., Renotte, Y., Fleury-Frenette, K., Defise, J., Habraken, S., A gas micromechanical sensor based on surface plasmons resonance, Proceedings of SPIE - The International Society for Optical Engineering 7116, art. no. 711609, 2008

12. Ikehata A, Ohara K, Ozaki Y, Direct determination of the experimentally observed penetration depth of the evanescent field via near-infrared absorptions enhanced by the off-resonance of surface plasmons, Applied Spectroscopy, 62, 512-516, 2008

11. Genchev, Z.D., Nedelchev, N.M., Mateev, E., Stoyanov, H.Y., Analytical approach to the prism coupling problem in the Kretschmann configuration, Plasmonics 3, 21-26, 2008

10. Manera MG, Fernandez CD, Maggioni G, et al.
Surface plasmon resonance study on the optical sensing properties of nanometric polyimide films to volatile organic vapours 
Sensors and Actuators B 120 (2): 712-718, 2007

9. Byun KM, Kim D, Kim SJ
Investigation of the profile effect on the sensitivity enhancement of nanowire-mediated localized surface plasmon resonance biosensors , Sensors and Actuators B 117 (2): 401-407 Sp. Iss. SI OCT 12 2006

8. Effect of the nanowire cross-section on the sensitivity enhancement of localized surface plasmon resonance biosensors, Byun, K.M., Kim, D., Kim, S.J., Progress in Biomedical Optics and Imaging - Proceedings of SPIE 6099, art. no. 60990T, 2006

7. Detection limit improvement of surface plasmon resonance based biosensors using statistical hypothesis testing, Barnett, A., Goldys, E.M., Dybek, K., Progress in Biomedical Optics and Imaging - Proceedings of SPIE 5703, pp. 71-78, 2005

6. Surface plasmon resonance biosensor using heterodyne interferometry, Joe, S.-F., Wu, C.-M., Chang, L.-B., Hsieh, L.-Z., Proceedings of SPIE - The International Society for Optical Engineering 5634 (PART 1), pp. 166-173 , 2005

5. High sensitivity displacement sensing with surface plasmon resonance, O zean, M., Proceedings of SPIE - The International Society for Optical Engineering 5927, art. no. 59271T, pp. 1-7, 2005

4. Damos FS, Luz RCS, Kubota LT,
Determination of Thickness, Dielectric Constant Of Thiol Films, And Kinetics Of Adsorption Using Surface Plasmon Resonance
Langmuir 21: 602-609, 2005

3. Ekgasit S, Stengel G, Knoll W,
Concentration of Dye-Labeled Nucleotides Incorporated Into Dna Determined By Surface Plasmon Resonance-Surface Plasmon Fluorescence Spectroscopy
Analytical Chemistry 76 : 4747-4755, 2004

2. Culha M, Lavrik NV, Schell FM, Tipple CA and Sepaniak MJ,
Characterization of Volatile, Hydrophobic Cyclodextrin Derivatives As Thin Films For Sensor Applications
Sensors And Actuators B-Chemical 92: 171-180, 2003

1. Ekgasit S, Thammacharoen C, Knoll W,
Surface Plasmon Resonance Spectroscopy Based on Evanescent Field Treatment
Analytical Chemistry 76: 561-568, 2004

S. Chah, J. Yi, C. M. Pettit, D. Roy, and J. H. Fendler,
"Ionization and Reprotonation of Self-Assembled Mercaptopropionic Acid Monolayers Investigated by Surface Plasmon Resonance Measurements", Langmuir 18 (2002) 314-318. Times Cited: 20

Cited By:

20. Catalyst-Free Growth of ZnO Nanowires Based on Topographical Confinement and Preferential Chemisorption and Their Use for Room Temperature CO Detection, Youn SK, Ramgir N, Wang CY, et al.Source: JOURNAL OF PHYSICAL CHEMISTRY C, 114, 0092-10100, 2010

19. Hager G, Brolo AG, Protonation and deprotonation of cysteine and cystine monolayers probed by impedance spectroscopy, Journal of Electroanalytical Chemistry 625, 109-116, 2009

18. Kang T, Hong S, Choi I, et al., Urea-driven conformational changes in surface-bound superoxide dismutase
Bulletin of the Korean Chemical Society 29, 1451-1458, 2008

17. Interfacial kinetic enhancement of metal ion adsorption on binary mixed self-assembled monolayers, Moon, J., Kang, T., Oh, S., Choi, I., Hong, S., Yi, J, Applied Surface Science 253 (18), pp. 7554-7558, 2007

16. Surface plasmon resonance analysis of aqueous copper ions with amino-terminated self-assembled monolayers, Hong, S., Kang, T., Moon, J., Oh, S., Yi, J., Colloids and Surfaces A: Physicochemical and Engineering Aspects 292 (2-3), pp. 264-270, 2006

15. In situ sensing of metal ion adsorption to a thiolated surface using surface plasmon resonance spectroscopy, Moon, J., Kang, T., Oh, S., Hong, S., Yi, J., Journal of Colloid and Interface Science 298 (2), pp. 543-549, 2006.

14. Hong S, Kang T, Moon J, et al.
pH-triggered ionization of self-assembled monolayers investigated by in-situ surface plasmon resonance measurements
Korean Journal of Chemical Engineering 23: 321-324, 2006

13. Kang T, Hong S, Kim HJ, et al.
Characterization of surface-confined alpha-synuclein by surface plasmon resonance measurements 
Langmuir 22 (1): 13-17, 2006

12. Kang T, Hong SR, Moon J, et al.
Fabrication of reusable sensor for detection of Cu2+ in an aqueous solution using a self-assembled monolayer with surface plasmon resonance spectroscopy 
Chemical Communications 29: 3721-3723, 2005

11. Kang TW, Moon J, Oh S, et al.
Direct observation of a cooperative mechanism in the adsorption of heavy metal ions to thiolated surface by in-situ surface plasmon resonance measurements 
Chemical Communications 18: 2360-2362, 2005

10. Ekgasit S, Thammacharoen C, Yu F, et al.
Influence of the metal film thickness on the sensitivity of surface plasmon resonance biosensors 
Applied Spectroscopy 59: 661-667, 2005

9. Moon J, Kang T, Oh S, et al.
Development of an environmental sensor for heavy metal ion detection by surface plasmon resonance spectroscopy
Key Engineering Materials 277-279: 383-386 2005

8. Mendes RK, Freire RS, Fonseca CP, et al.
Characterization of Self-Assembled Thiols Monolayers on Gold Surface By Electrochemical Impedance Spectroscopy
Journal Of The Brazilian Chemical Society 15: 849-855, 2004

7. Ekgasit S, Stengel G, Knoll W,
Concentration of Dye-Labeled Nucleotides Incorporated Into DNA Determined By Surface Plasmon Resonance-Surface Plasmon Fluorescence Spectroscopy
Analytical Chemistry 76: 4747-4755, 2004

6. Faull JD, Wissmann PJ, Gupta VK,
Ionic Interactions And Multilayer Structures on Self-Assembled Surfaces Of Calix [4]Resorcinarene
Thin Solid Films 457: 292-300, 2004

5. Chah S, Yi JH, Zare RN,
Surface Plasmon Resonance Analysis of Aqueous Mercuric Ions
Sensors And Actuators B 99: 216-222, 2004

4. Sarkar D, Somasundaran P,
Conformational Dynamics of Poly(Acrylic Acid). A Study Using Surface Plasmon Resonance Spectroscopy
Langmuir 20: 4657-4664, 2004

3. Zhang Hq, Boussaad S, Tao NJ,
High-Performance Differential Surface Plasmon Resonance Sensor Using Quadrant Cell Photodetector
Review Of Scientific Instruments 74: 150-153 Part 1, 2003

2. Chah SW, Fendler JH, Yi J,
In-Situ Analysis Of Stepwise Self-Assembled 1,6-Hexanedithiol Multilayers By Surface Plasmon Resonance Measurements
Chemical Communications 18: 2094-2095, 2002

1. Chah S, Fendler JH, Yi J,
Nanostructured Gold Hollow Microspheres Prepared on Dissolvable Ceramic Hollow Sphere Templates
Journal Of Colloid And Interface Science 250: 142-148, 2002

J.E. Garland, K. A. Assiongbon, C.M. Pettit, S.B. Emery and D. Roy,
"Kinetic analysis of Electrosorption using Fast Fourier Transform Electrochemical Impedance spectroscopy: Underpotential Deposition of Bi3+ In The Presence of Coadsorbing ClO4- on Gold",
Electrochimica Acta 47 (2002) 4113-4124. Times Cited: 10

Cited By:

10. Feng, Z.-S., Sun, B.-R., Ding, J.I.A., Liang, Z.I., Spline interpolation uesed in electronchemical impedance spectroscopy, International Conference on Apperceiving Computing and Intelligence Analysis, ICACIA 2008, 16-19, 2008.

9. Chang, B.-Y., Ahn, E., Park, S.-M., Real-time staircase cyclic voltammetry fourier transform electrochemical impedance spectroscopic studies on underpotential deposition of lead on gold, Journal of Physical Chemistry C 112, 16902-16909, 2008

8. Stafford GR, Bertocci U
In situ stress and nanogravimetric measurements during underpotential deposition of bismuth on (111)-textured Au Journal Of Physical Chemistry B 110 : 15493-15498 2006

7. X. Bai, S.C. Dexter and G.W. Luther III
Application of EIS with Au–Hg microelectrode in determining electron transfer mechanisms 
Electrochimica Acta, 51 (8-9): 1524-1533 2006

6. Minli Yang and Zhongbo Hu
Electrodeposition of bismuth onto glassy carbon electrodes from nitrate solutions 
Journal of Electroanalytical Chemistry, 583: 46-55, 2005

5. G.A. Ragoisha and A.S. Bondarenko,
Potentiodynamic Electrochemical Impedance Spectroscopy Electrochimica Acta, 50 2005, 1553-1563

4. Jurczakowski R, Lasia A,
Limitations of The Potential Step Technique To Impedance Measurements Using Discrete Time Fourier Transform
Analytical Chemistry 76 : 5033-5038, 2004

3. Horvat-Radosevic V, Kvastek K,
Hydrogen/Anion Electrosorption At Rhodized Electrodes As Revealed By Electrochemical Impedance Spectroscopy
Journal Of Electroanalytical Chemistry 566: 451-465, 2004

2. Ragoisha GA, Bondarenko AS,
Potentiodynamic Electrochemical Impedance Spectroscopy. Copper Underpotential Deposition On Gold
Electrochemistry Communications 5 : 392-395, 2003

1. Sudha V, Sangaranarayanan MV,
Underpotential Deposition Of Metals From Thermodynamic And Structural Considerations. 2. Nonaqueous Solvents
Journal Of Physical Chemistry B 107: 3907-3913, 2003

C. M. Pettit, J. E. Garland, N. R. Etukudo, K. A. Assiongbon, S. B. Emery and D. Roy,
"Electrodeposition of Indium on Molybdenum Studied with Optical Second Harmonic Generation and Electrochemical Impedance Spectroscopy",
Applied Surface Science 202 (2002) 33-46.Times Cited: 3

Cited By:

3. Sui JH, Gao ZY, Cai W, et al.
Corrosion behavior of NiTi alloys coated with diamond-like carbon (DLC) fabricated by plasma immersion ion implantation and deposition 
Materials Science and Engineering A 452: 518-523, 2007

2. Bozzini B, Busson B, De Gaudenzi GP, et al.
An SFG and DFG investigation of polycrystalline Au, Au-Cu and Au-Ag-Cu electrodes in contact with aqueous solutions containing KCN 
Journal of Alloys and Compounds 427 (1-2): 341-349, 2007

1.Sher AA, Bond AM, Gavaghan DJ, et al.
Fourier transformed large amplitude square-wave voltammetry as an alternative to impedance spectroscopy: Evaluation of resistance, capacitance and electrode kinetic effects via an heuristic approach 
Electroanalysis 17: 1450-1462, 2005

J. E. Garland, K. A. Assiongbon, C. M. Pettit And D. Roy, "Surface Plasmon Resonance Transients At An Electrochemical Interface: Time Resolved Measurements Using A Bicell Photodiode", Analytica Chimica Acta 475 (2003) 47-58.Times Cited: 8

Cited By:

8. Park, M.-J., Choi, S.-S., Jha, V.K., Suwal, O.K., Influence of titanium on the light transmittance through a nano-aperture , Conference on Optoelectronic and Microelectronic Materials and Devices, Proceedings, COMMAD, art. no. 4802123, pp. 189-192, 2008

7. Uematsu T, Kuwabata S, In situ surface plasmon resonance measurements of self-assembled monolayers of ferrocenylalkylthiols under constant potentials, ANALYTICAL SCIENCES, 24, 307-312, 2008

6. Brod, E., Nimri, S., Turner, B., Sivan, U, Electrical control over antibody-antigen binding, Sensors and Actuators, B 128 (2), pp. 560-565, 2008.

5. Flavio S. Damos, Rita C.S. Luz and Lauro T. Kubota,
Investigations of ultrathin polypyrrole films: Formation and effects of doping/dedoping processes on its optical properties by electrochemical surface plasmon resonance (ESPR) 
Electrochimica Acta, 51 (7): 1304-1312, 2006

4. Baac, H., Jun, S.B., Turner, J.N., Shain, W., Smith, K.L., Shuler, M.L., Kim, S.J., Extracellular optical recording configuration for neuronal action potential detection by using surface plasmon resonance: Preliminary experiment, 2nd International IEEE EMBS Conference on Neural Engineering 2005, art. no. 1419625, pp. 332-335, 2005

3. Damos, Rita C.S. Luz and Lauro T. Kubota,
Study of poly(methylene blue) ultrathin films and its properties by electrochemical surface plasmon resonance , Journal of Electroanalytical Chemistry, 581: 231-240 , 2005

2.Ekgasit S, Thammacharoen C, Yu F, et al.
Influence of the metal film thickness on the sensitivity of surface plasmon resonance biosensors 
Applied Spectroscopy 59: 661-667, 2005

1. Yu JCC, Lai EPC,
Polypyrrole Film On Miniaturized Surface Plasmon Resonance Sensor For Ochratoxin A Detection
Synthetic Metals 143: 253-258, 2004

"Fourier Transform Infrared Spectroscopy Using Polarization Modulation And Polarization Selective Geometries: Investigation Of Self-Assembled Octadecylmercaptan On A Thin Gold Film", Journal of Physical Chemistry B 107 (2003) 7812-7819 .Times Cited: 9

Cited By:

9. Erbe A, Bushby RJ, Evans SD, et al.
Tethered bilayer lipid membranes studied by simultaneous attenuated total reflectance infrared spectroscopy and electrochemical impedance spectroscopy 
J. Phys. Chem. B 111, 3515-3524, 2007

8. Kim J, Jung DG, Park Y, et al.
Quantitative analysis of surface amine groups on plasma-polymerized ethylenediamine films using UV-visible spectroscopy compared to chemical derivatization with FT-IR spectroscopy, XPS and TOF-SIMS 
Applied Surface Science 253 (9): 4112-4118, 2007

7. Singh BK, Hillier AC
Grating-coupler assisted infrared reflection absorption spectroscopy for the characterization of organic thin films 
Analytical Chemistry 78 (20): 7335-7340 OCT 15 2006

6. Bieri M, Burgi T
D-penicillamine adsorption on gold: An in situ ATR-IR spectroscopic and QCM study 
Langmuir 22 (20): 8379-8386 SEP 26 2006

5. Burgi T, Baiker A
Attenuated total reflection infrared spectroscopy of solid catalysts functioning in the presence of liquid-phase reactants 
Advances in Catalysis 50: 227-283 2006

4. Hu ZG, Prunici P, Patzner P, et al.
Infrared spectroscopic ellipsometry of n-alkylthiol (C-5-C-18) self-assembled monolayers on gold 
J. Phys. Chem. B 110 (30): 14824-14831 2006

3. Bieri M, Burgi T
Adsorption kinetics, orientation, and self-assembling of N-acetyl-L-cysteine on gold: A combined ATR-IR, PM-IRRAS, and QCM study , Journal Of Physical Chemistry B 109: 22476-22485 DEC 1 2005

2. Bieri M, Burgi T,
L-Glutathione chemisorption on gold and acid/base induced structural changes: A PM-IRRAS and time-resolved in situ ATR-IR spectroscopic study Langmuir 21 (4): 1354-1363 2005

1. Tokareva I, Hutter E,
Hybridization Of Oligonucleotide-Modified Silver And Gold Nanoparticles In Aqueous Dispersions And on Gold Films
Journal of The American Chemical Society 126 : 15784-15789, 2004

L.A. Luck, M.J. Moravan, J.E. Garland, B. Salopek-Sondi And D. Roy, "Chemisorptions Of Bacterial Receptors For Hydrophobic Amino Acids And Sugars On Gold For Biosensor Applications: A Surface Plasmon Resonance Study Of Genetically Engineered Proteins",
Biosensors And Bioelectronics 19 (2003) 249-259. Times Cited: 16

Cited By:

16. Chen, L.-Y., Monitoring conformational changes of immobilized RNase A and Lysozyme in reductive unfolding by surface plasmon resonance, Analytica Chimica Acta 631 (1), pp. 96-101, 2009

15. Ferrero VEV, Andolfi L, Di Nardo G, et al., Protein and Electrode Engineering for the Covalent Immobilization of P450 BMP on Gold, Analytical Chemistry 80, 8438-8446, 2008

14.Andreescu S, Luck LA, Studies of the binding and signaling of surface-immobilized periplasmic glucose receptors on gold nanoparticles: A glucose biosensor application, Analytical Biochemistry, 375, 282-290 , 2008

13. Tripathi A, Wang J, Luck LA, et al.
Nanobiosensor design utilizing a periplasmic E-coli receptor protein immobilized within Au/polycarbonate nanopores, Analytical Chemistry79 (3): 1266-1270, 2007

12. Wang JB, Luck LA, Suni II
Immobilization of the glucose-galactose receptor protein onto a Au electrode through a genetically engineered cysteine residue, Electrochemistry and Solid-State Letters 10: J33-J36 2007

11. Moschou EA, Bachas LG, Daunert S, et al.
Hinge-motion binding proteins: Unraveling their analytical potential 
Analytical Chemistry 78: 6692-6700, 2006

10. De Lorimier RM, Tian YJ, Hellinga HW
Binding and signaling of surface-immobilized reagentless fluorescent biosensors derived from periplasmic binding proteins 
Protein Science 15 (8): 1936-1944 2006

9. Kavita Arora, Subhash Chand and B.D. Malhotra
Recent developments in bio-molecular electronics techniques for food pathogens 
Analytica Chimica Acta, 568, 259-274, 2006

8. Sokolov I, Subba-Rao V, Luck LA
Change in rigidity in the activated form of the glucose/galactose receptor from Escherichia coli: A phenomenon that will be key to the development of biosensors 
Biophysical Journal 90 (3): 1055-1063, 2006

7. Challenges of food safety and quality in food analysis, Magyar Kemiai Folyoirat, Kemiai Kozlemenyek 111 (3), pp. 118-123, 2005

6. Liang-Yu Chen, Ming-Chia Wu, Mao-Tsun Chou, Li-An Kao, Shean-Jen Chen and Wen-Yih Chen
Effects of solute-matrix interaction on monitoring the conformational changes of immobilized proteins by surface plasmon resonance sensor
Talanta 67, 862-867, 2005

5. Ekgasit S, Thammacharoen C, Yu F, et al.
Influence of the metal film thickness on the sensitivity of surface plasmon resonance biosensors 
Applied Spectroscopy 59: 661-667, 2005

4. Wang J, Carmon KS, Luck LA, et al.
Electrochemical impedance biosensor for glucose detection utilizing a periplasmic E-coli receptor protein 
Electrochemical and Solid State Letters 8: H61-H64, 2005

3. A.L. Simonian, T.A. Good, S.-S. Wang and J.R. Wild,
Nanoparticle-Based Optical Biosensors for The Direct Detection of Organophosphate Chemical Warfare Agents And Pesticides
Analytica Chimica Acta 534: 69-77, 2005

2. Henry R, Anand A, Chowdhury M, et al.,
Development of A Nanoparticle-Based Surface-Modified Fluorescence Assay For The Detection of Prion Proteins
Analytical Biochemistry 334: 1-8, 2004

1. Carmon KS, Baltus RE, Luck LA,
A Piezoelectric Quartz Crystal Biosensor: The Use of Two Single Cysteine Mutants of The Periplasmic Escherichia Coli Glucose/Galactose Receptor As Target Proteins For The Detection of Glucose
Biochemistry 43: 14249-14256, 2004

D. Roy And J. H. Fendler, "Reflection And Absorption Techniques For Optical Characterization Of Chemically Assembled Nanomaterials" (Review),
Advanced Materials 16 (2004) 479-508. Times Cited: 59

Cited By:

59. Highly sensitive interfacial fluorescence sensing of deoxyribonucleic acid based on self-assembled multilayers Author(s): Sun XY, Liu B, Hu P, et al., THIN SOLID FILMS, 518, 4437-4441, 2010

58. Benchtop chemistry for the rapid prototyping of label-free biosensors: Transmission localized surface plasmon resonance platforms, Liao WS, Chen X, Yang TL, et al.. BIOINTERPHASES, 4. 80-85, 2009

57. Solvent Effect in Dynamic Superstructures from Au Nanoparticles and CdTe Nanowires: Experimental Observation and Theoretical Description, Lee J, Orazbayev A, Govorov AO, et al.JOURNAL OF PHYSICAL CHEMISTRY C, 114, 1404-1410, 2010

56.Layer-by-layer assembly of electro-active gold nanoparticle/cytochrome c multilayers Author(s): Bonk SM, Lisdat FSource: BIOSENSORS & BIOELECTRONICS Volume: 25 , 739-744, 2009

55. Gao SY, Koshizaki N, Koyama E, et al., Innovative Platform for Transmission Localized Surface Plasmon Transducers and Its Application in Detecting Heavy Metal Pd(II) ANALYTICAL CHEMISTRY, 81, 7703-7712, 2009

54. Acharya S, Hill JP, Ariga K, Soft Langmuir-Blodgett Technique for Hard Nanomaterials ADVANCED MATERIALS, 21, 2959-2981, 2009

53. Uosaki K, Electrochemical Oxidative Formation of Ordered Monolayers of Thiol Molecules on Au(111) Surface, CHEMICAL RECORD, 9, 199-209, 2009

52. Sun XY, Liu B, He F, A novel biosensor for bovine serum albumin based on fluorescent self-assembled sandwich bilayers, Luminescence, 24, 62-66, 2009

51. Chen R, Nuhfer NT, Moussa L, et al., Silver sulfide nanoparticle assembly obtained by reacting an assembled silver nanoparticle template with hydrogen sulfide gas, Nanotechnology 19 Issue: 45 Article Number: 455604, 2008

50. Perkas N, Amirian G, Applerot G, et al., Depositing silver nanoparticles on/in a glass slide by the sonochemical method, Nanotechnology19 Issue: 43 Article Number: 435604, 2008

49. Prasad BLV, Sorensen CM, Klabunde KJ, Gold nanoparticle superlattices, CHEMICAL SOCIETY REVIEWS, 37, 1871-1883, 2008

48. Urea-driven conformational changes in surface-bound superoxide dismutase, Kang T, Hong S, Choi I, et al., BULLETIN OF THE KOREAN CHEMICAL SOCIETY, 29, 1451-1458, 2008

47. Gyorgy E, del Pino AP, Giannoudakos A, et al., Tunable optical properties of laser grown double-structures with gold nanoparticles and zinc oxide thin films, PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE, 205, 1978-1982 2008

46. Bois L, Bessueille F, Chassagneux F, et al., Silver nanoparticles growth in a mesoporous silica film templated with the F127 triblock copolymer, COLLOIDS AND SURFACES A, 325, 86-92, 2008

45. Choi S, Kang TY, Choi KW, et al., Conformationally specific vacuum ultraviolet mass-analyzed threshold ionization Spectroscopy of alkanethiols: Structure and ionization of conformational isomers of ethanethiol, isopropanethiol, 1-propanethiol, tert-butanethiol, and 1-Butanethiol, JOURNAL OF PHYSICAL CHEMISTRY A 112, 7191-7199, 2008

44. Manera MG, Spadavecchia J, Buso D, et al., Optical gas sensing Of TiO2 and TiO2/Au nanocomposite thin films, SENSORS AND ACTUATORS B, 132, 107-115, 2008

43. Ikehata A, Ohara K, Shinzawa H, et al., Sensitive detection and identification of organic liquids using the second derivative of surface plasmon resonance near-infrared spectra, Applied Spectroscopy, 62, 517-524, 2008

42. Gyorgy E, Giannoudakos A, Kompitsas M, et al., Laser grown gold nanoparticles on zinc oxide thin films for gas sensor applications, Journal of Optoelectronics and Advanced Materials, 10, 536-540, 2008

41. Liu B, Sun XY, He F, Preparation and characterization of a Cu2+ chemosensor based on fluorescent self-assembled sandwich bilayers, Thin Solid Films 516, 2213-2217, 2008

40. Genchev ZD, Nedelchev NM, Mateev E, et al., Analytical approach to the prism coupling problem in the Kretschmann configuration, PLASMONICS, 3, 21-26, 2008

39. Balamurugan S, Obubuafo A, Soper SA, et al., Surface immobilization methods for aptamer diagnostic applications, Analytical and BioanalyticalChemistry, 390, 1009-1021, 2008

38. Chemical sensors based on molecularly modified metallic nanoparticles, Haick H, Journal of Applied Physics D 40, 7173-7186, 2007

37. Salmain M, Fischer-Durand N, Pradier CM , Infrared optical immunosensor: Application to the measurement of the herbicide atrazine, Analytical Biochemistry 373, 61-70, 2008

36. Ohara K, Ikehata A, Hirano Y, et al., Determination of surface selection rule of surface plasmon resonance near-infrared Spectroscopy by using a Langmuir-Blodgett film, Analytical Chemistry, 79, 21, 8406-8410, 2007

35. Chen, Y., Wang, C., Ma, Z., Su, Z., Controllable colours and shapes of silver nanostructures based on pH: Application to surface-enhanced Raman scattering Nanotechnology 18 (32), 2007

34. Moon, J., Kang, T., Oh, S., Choi, I., Hong, S., Yi, J. Interfacial kinetic enhancement of metal ion adsorption on binary mixed self-assembled monolayers, Applied Surface Science 253 (18), pp. 7554-7558, 2007

33. Shen GY, Wang H, Shen GL, et al.
Au nanoparticle network-type thin films formed via mixed assembling and cross-linking route for biosensor application: Quartz crystal microbalance study 
Analytical Biochemistry 365 (1): 1-6, 2007

32. Stoyanov H
ATIR proximity sensing through an absorbing medium 
Optics and Laser Technology 39, 885-891, 2007

31. Nagata T
Automated design of protecting molecules for metal nanoparticles by combinatorial molecular simulations 
Journal Of Organometallic Chemistry 692 (1-3): 225-233 JAN 1 2007

30. Irit N, Bendikov TA, Doron-Mor I, et al.
Silica-stabilized gold island films for transmission localized surface plasmon sensing 
Journal Of The American Chemical Society 129 (1): 84-92 JAN 10 2007

29. Qian L, Sha YF, Yang XR
Simple and convenient preparation of Au-Pt core-shell nanoparticles on surface via a seed growth method 
Thin Solid Films 515 (4): 1349-1353 DEC 5 2006

28. Huo SJ, Xue XK, Li QX, et al.
Seeded-growth approach to fabrication of silver nanoparticle films on silicon for electrochemical ATR surface-enhanced IR absorption spectroscopy 
J. Phys. Chem. B 110 (51): 25721-25728 DEC 28 2006

27. Chen D, Li JH
Interfacial design and functionization on metal electrodes through self-assembled monolayers 
Surface Science Reports 61 (11): 445-463 DEC 1 2006

26. Pieczonka NPW, Goulet PJG, Aroca RF
Applications of the enhancement of resonance Raman scattering and fluorescence by strongly coupled metallic nanostructures 
Topics in Applied Physics 103: 197-216 2006

25. Lin HY, Chen CT, Chen YC
Detection of phosphopeptides by localized surface plasma resonance of titania-coated gold nanoparticles immobilized on glass substrates 
Analytical Chemistry 78: 6873-6878, 2006

24. Kang T, Hong S, Choi I, et al.
Reversible pH-driven conformational switching of tethered superoxide dismutase with gold nanoparticle enhanced surface plasmon resonance spectroscopy 
Journal Of The American Chemical Society 128,12870-12878, 2006

23. Hu ZG, Prunici P, Patzner P, et al.
Infrared spectroscopic ellipsometry of n-alkylthiol (C-5-C-18) self-assembled monolayers on gold 
J. Phys. Chem. B 110 (30): 14824-14831 2006

22. Kriegisch V, Lambert C
Self-assembled monolayers of chromophores on gold surfaces 
Topics in Current Chemistry 258: 257-313 2005

21.Kang T, Hong S, Kim HJ, et al.
Characterization of surface-confined alpha-synuclein by surface plasmon resonance measurements 
Langmuir 22 (1): 13-17, 2006

20. Li Z, Zheng T, Chen LJ, et al.
Synthesis of Ag2S nano-sized clusters and their chemical sensitizations in AgCl cubic and {100} tabular microcrystal imaging systems 
Science in China Series B -Chemistry 48 (6): 516-522, 2005

19. Sih BC, Wolf MO, Jarvis D, et al.
Surface-plasmon resonance sensing of alcohol with electrodeposited polythiophene and gold nanoparticle-oligothiophene films 
Journal of Applied Physics 98 (11): Art. No. 114314, 2005

18. Aroca RF, Alvarez-Puebla RA, Pieczonka N, et al.
Surface-enhanced Raman scattering on colloidal nanostructures 
Advances in Colloid and Interface Science 116: 45-61, 2005

17. Hinrichs K, Gensch M, Esser N
Analysis of organic films and interfacial layers by infrared spectroscopic ellipsometry
Applied Spectroscopy 59 (11): 272A-282A, 2005

16. Rich RL, Myszka DG
Survey of the year 2004 commercial optical biosensor literature 
Journal of Molecular Recognition18: 431-478, 2005

15. Doron-Mor I, Cohen H, Barkay Z, et al.
Sensitivity of transmission surface plasmon resonance (T-SPR) spectroscopy: Self-assembled multilayers on evaporated gold island films 
Chemistry-A European Journal 11: 5555-5562, 2005

14. Angelova P, Kostova K, Hinrichs K, et al.
A convenient synthesis of long-chain 4-substituted benzyloxycarbonyl alkanethiols for the formation of self assembled monolayers on metal substrates 
Central European Journal of Chemistry 3 (4): 658-667, 2005

13. Kang T, Hong SR, Moon J, et al.
Fabrication of reusable sensor for detection of Cu2+ in an aqueous solution using a self-assembled monolayer with surface plasmon resonance spectroscopy 
Chemical Communications 29: 3721-3723, 2005

12. Kang TW, Moon J, Oh S, et al.
Direct observation of a cooperative mechanism in the adsorption of heavy metal ions to thiolated surface by in-situ surface plasmon resonance measurements 
Chemical Communications 18: 2360-2362, 2005

11. Wano H, Uosaki K
In situ dynamic monitoring of electrochemical oxidative adsorption and reductive desorption processes of a self-assembled monolayer of hexanethiol on a Au(111) surface in KOH ethanol solution by scanning tunneling microscopy 
Langmuir 21: 4024-4033, 2005

10. Burda C, Chen XB, Narayanan R, et al.
Chemistry and properties of nanocrystals of different shapes 
Chemical Reviews105 (4): 1025-1102 , 2005

9. Love JC, Estroff LA, Kriebel JK, et al.
Self-assembled monolayers of thiolates on metals as a form of nanotechnology 
Chemical Reviews 105 (4): 1103-1169, 2005

8. Im SH, Lee YT, Wiley B, et al.
Large-scale synthesis of silver nanocubes: The role of HCl in promoting cube perfection and monodispersity 
Angewandte Chemie 44 (14): 2154-2157, 2005

7. Olson TS, Atanassov P, Brevnov DA
Electrodeposition of gold particles on aluminum substrates containing copper
Journal Of Physical Chemistry B 109: 1243-1250, 2005

6. Aroca RF, Goulet PJG, Dos Santos DS, et al.
Silver Nanowire Layer-By-Layer Films As Substrates for Surface-Enhanced Raman Scattering
Analytical Chemistry 77: 378-382, 2005

5. Tokareva I, Minko S, Fendler JH, et al.,
Nanosensors Based on Responsive Polymer Brushes And Gold Nanoparticle Enhanced Transmission Surface Plasmon Resonance Spectroscopy
Journal Of The American Chemical Society 126: 15950-15951, 2004

4. Alvarez-Puebla RA, Garrido JJ, Aroca RF,
Surface-Enhanced Vibrational Microspectroscopy of Fulvic Acid Micelles
Analytical Chemistry 76: 7118-7125, 2004

3. Tokareva I, Hutter E,
Hybridization of Oligonucleotide-Modified Silver And Gold Nanoparticles In Aqueous Dispersions And On Gold Films
Journal of The American Chemical Society 126: 15784-15789, 2004

2. Lee Sj, Yu ACC, Lo CCH, et al.
Optical Properties Of Monodispersive Fe Pt Nanoparticle Films
Physica Status Solidi A-Applied Research 201: 3031-3036, 2004

1. Hutter E, Fendler JH,
Exploitation of Localized Surface Plasmon Resonance
Advanced Materials 16 : 1685-1706, 2004

J. E. Garland , C. M. Pettit and D. Roy,
"Analysis of experimental constraints and variables for time resolved detection of Fourier transform electrochemical impedance spectra",
Electrochimica Acta 49 (2004) 2623-2635. Times Cited: 15

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15. The Influence of Electroless Silver Deposition on Electrochemical Properties of the Steel Cathode Current Collector of Alkaline Batteries, Ghaemi M, Makhlooghi F, Adelkhani H, et al, INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE, 5, 131-146, 2010

14. Characterisation of the electrochemical redox behaviour of Pt electrodes by potentiodynamic electrochemical impedance spectroscopy, Ragoisha GA, Osipovich NP, Bondarenko AS, et al., JOURNAL OF SOLID STATE ELECTROCHEMISTRY, 14, 531-542, 2010

13. Birbilis N, Meyer K, Muddle BC, et al., In situ measurement of corrosion on the nanoscale, CORROSION SCIENCE, 51, 1569-1572, 2009

12. Feng ZS, Sun BR, Ding J, et al., SPLINE INTERPOLATION UESED IN ELECTRONCHEMICAL IMPEDANCE SPECTROSCOPY Conference Information: International Conference on Apperceiving Computing and Intelligence Analysis, DEC 13-15, 2008 Chengdu, PEOPLES R CHINA Source: 2008 INTERNATIONAL CONFERENCE ON APPERCEIVING COMPUTING AND INTELLIGENCE ANALYSIS (ICACIA 2008) Pages: 16-19 Published: 2008

11. O'Grady ML, Parker KK, Dynamic control of protein-protein interactions
Langmuir, 24, 316-322, 2008

10. Hung, C.-C., Lee, W.-H., Wang, Y.-S., Chang, S.-C., Wang, Y.-L., Investigation of galvanic corrosion between TaNx barriers and copper seed by electrochemical impedance spectroscopy, Electrochemical and Solid-State Letters 10,D100-D103, 2007

9. Daniels, J.S., Pourmand, N., Label-free impedance biosensors: Opportunities and challenges, Electroanalysis 19 1239-1257, 2007

8. Fouquet N, Doulet C, Nouillant C, et al.
Model based PEM fuel cell state-of-health monitoring via ac impedance measurements 
Journal of Power Sources 159: 905-913, 2006

7.Birbilis, N., Cavanaugh, M.K., Buchheit, R.G., Electrochemical response of AA7075-T651 following immersion in NaCl solution, ECS Transactions 1 (4), pp. 115-126, 2005

6. Sher AA, Bond AM, Gavaghan DJ, et al.
Fourier transformed large amplitude square-wave voltammetry as an alternative to impedance spectroscopy: Evaluation of resistance, capacitance and electrode kinetic effects via an heuristic approach 
Electroanalysis 17: 1450-1462, 2005

5. Mansfeld, F., Discussion: Electrochemical techniques for studying corrosion of reinforcing steel: Limitations and advantages,  Corrosion 61 (8), pp. 739-742 , 2005.

4. Gonzalez JA, Miranda JM, Birbilis N, et al.
Electrochemical techniques for studying corrosion of reinforcing steel: Limitations and advantages  
Corrosion 61: 741-742, 2005

3. Vadim F. Lvovich and Matthew F. Smiechowski
Impedance characterization of industrial lubricants 
Electrochimica Acta, 51 (8-9): 1487-1496 2006

2. Birbilis. N., Padgett B.N. and Buchheit R.G.,
Limitations in Microelectrochemical Capillary Cell Testing and Transformation of Electrochemical Transients for Acquisition of Microcell Impedance Data
Electrochimica Acta, 50: 3536-3544 , 2005

1. Bond AM, Duffy NW, Guo SX, et al.
Changing the look of voltammetry 
Analytical Chemistry 77 (9): 186A-195A, 2005

C. M. Pettit, J. E. Garland, M. J. Walters and D. Roy,
"Time Resolved Study of Electrode Reactions using Fourier Transform Impedance Spectroscopy: Mutually Correlated Adsorption Kinetics of Cu2+ and ClO4- on gold",
Electrochimica Acta 49 (2004) 3293-3304. Times Cited: 3

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3. Ragoisha, G.A., Bondarenko, A.S., Osipovich, N.P., Rabchynski, S.M., Streltsov, E.A., Multiparametric characterisation of metal-chalcogen atomic multilayer assembly by potentiodynamic electrochemical impedance spectroscopy, International Workshop on Electrochemistry of Electroactive Materials ( WEEM-2006), JUN 24-29, 2006 Repino, RUSSIA, ELECTROCHIMICA ACTA Volume: 53 Issue: 11 Pages: 3879-3888 , 2008

2. Ercan Avci, Carsten Meyer and Constanze Donner
Interaction of thymine and copper adatoms on Au(1 1 1) electrodes .
Journal of Electroanalytical Chemistry, 589, 24-31, 2006

1. A.S. Bondarenko, G.A. Ragoisha, N.P. Osipovich and E.A. Streltsov
Potentiodynamic electrochemical impedance spectroscopy of lead upd on polycrystalline gold and on selenium atomic underlayer 
Electrochemistry Communications 7, 631-636, 2005

Samuel B. Emery, Jennifer L. Hubbley and Dipankar Roy
Voltammetric and amperometric analyses of electrochemical nucleation: electrodeposition of copper on nickel and tantalum
Journal of Electroanalytical Chemistry, 568, (2004) 121-133. Times Cited: 9

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9. Mele C, Rondinini S, D'Urzo L, et al., Silver electrodeposition from water-acetonitrile mixed solvents and mixed electrolytes in the presence of tetrabutylammonium perchlorate. Part I-electrochemical nucleation on glassy carbon electrode 5th Chianti Electrochemistry Meeting 2008, JUL 08-13, 2008 Siena, ITALY Source: JOURNAL OF SOLID STATE ELECTROCHEMISTRY Volume: 13 Issue: 10 Pages: 1577-1584 Published: OCT 2009

8. CHEN, A.-l., QIU, G.-z., ZHAO, Z.-w., SUN, P.-m., YU, R.-l., Removal of copper from nickel anode electrolyte through ion exchange, Transactions of Nonferrous Metals Society of China (English Edition) 19 (1), pp. 253-258, 2009  

7. Nzoghe-Mendome, L., Ebothe
, J., Aloufy, A., Kityk, I.V., Role of substrate on topography features of nickel deposited nanostructures, Journal of Alloys and Compounds 459, 232-238, 2008

6. Cheng, H., Hng, H.H., Ma, J., A study on the electrodeposition behavior of cobalt antimonides in citric based solutions, Diffusion and Defect Data Pt.B: Solid State Phenomena 136, 75-82, 2008

5. Mentus SV, Boskovic I, Pjescic JM, et al. Tailoring the morphology and electrocatalytic properties of electrochemically formed Ag/TiO2 composite deposits on titanium surfaces, Journal of the Serbian Chemical Society, 72, 1403-1418, 2007

4. Pesic, B., Copper electrodeposition on diffusion barrier films - A literature review, ECS Transactions 2, 243-256, 2007

3. El-Sayed, H., Greiner, M.T., Kruse, P, Selective electroplating of copper lines on pre-patterned tantalum oxide thin films, Applied Surface Science 253, 8962-8968, 2007

2.Drews TO, Aleksandar R, Erlebacher J, et al.
Stochastic simulation of the early stages of kinetically limited electrodeposition 
Journal of The Electrochemical Society 153, : 434-441 2006

I. Boskovic, S.V. Mentus and M. Pjescic
Electrochemical behavior of an Ag/TiO₂ composite surfaces 
Electrochimica Acta, 51, 2793-2799 2006

J. Lu, J. E. Garland, C. M. Pettit, S. V. Babu, and D. Roy,
"Relative Roles of H₂O₂ and Glycine in CMP of Copper Studied with Impedance Spectroscopy", Journal of The Electrochemical Society 151 (2004) G717-G722.Times Cited: 19

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19. Copper deterioration: causes, diagnosis and risk minimisation, Bastidas DM, Criado M, Fajardo S, et al., INTERNATIONAL MATERIALS REVIEWS, 55, 99-127, 2010

18. Identification of reaction mechanism for anodic dissolution of metals using Electrochemical Impedance Spectroscopy, Maddala J, Sambath K, Kumar V, et al, JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 638, 183-188, 2010

17. Stewart KL, Keleher JJ, Gewirth, Synergy of Ammonium Oxalate and Hydrogen Peroxide on the Dissolution of Copper at Neutral pH, Journal of Electrochemical Society, 156, : H595-H600 2009

16. Van Ingelgem Y, Tourwe E, Blajiev O, et al., Advantages of Odd Random Phase Multisine Electrochemical Impedance Measurements, Electroanalysis 21, 730-739, 2009

15. Electrochemical impedance spectroscopic studies of copper dissolution in arginine-hydrogen peroxide solutions Prasad YN, Kumar VV, Ramanathan S, Journal of Solid-State ElectroChemistry, 13, 1351-1359, 2009

14.Armini S, Whelan CM, Moinpour M, et al., Copper CMP with Composite Polymer Core-Silica Shell Abrasives: A Defectivity Study, Journal of The Electrochemical Society, 156, H18-H26, 2009

13. Phatak U, Bukkapatnam S, Kong Z, et al, Sensor-based modeling of slurry, chemistry effects on the material removal rate (MRR) in copper-CMP process., International Journal of Machine Tool and Manufacture 49, 171-181, 2009

12. Han SJ, Lee WS, Seo YJ, Voltage-Dependent Electrochemical Removal of Copper in KNO3 Electrolytes for Electrochemical-Mechanical Polishing Applications Journal of the Korean Physical Society, 53   Issue: 5, 2401-2406 , Part 1 Sp. Iss. SI, 2008

11. Lee YK, Lee WS, Seo YJ, Electrochemical Surface Evaluation of Copper by Using a Cyclic Voltammetry Method in a NaNO3 Electrolyte for ECMP Applications, Journal of the Korean Physical Society, 53   Issue: 5, 2485-2490 , Part 1 Sp. Iss. SI , 2008

10. Stewart KL, Keleher JJ, Gewirth AA, Relationship between molecular structure and removal rates during chemical mechanical planarization: Comparison of benzotriazole and 1,2,4-triazole, Journal of The Electrochemical Society, 155, D625-D631, 2008

9. Govindaswamy S, Tripathi A, Suni II, et al., 5-phenyl-1-H-tetrazole as a low-pH passivating agent for copper chemical mechanical planarization, Journal of The Electrochemical Society, 155, H459-H463, 2008

8. Lin JY, West AC, Wan CC, Adsorption and desorption studies of glycine and benzotriazole during cu oxidation in a chemical mechanical polishing bath, Journal of The Electrochemical Society, 155, H396-H400, 2008

7. O'Grady, M.L., Parker, K.K., Dynamic control of protein-protein interactions, Langmuir 24 (1), pp. 316-322, 2008

6. Kang MC, Nam HS, Won HY, et al., Effects of OH radicals on formation of Cu oxide and polishing performance in Cu chemical mechanical polishing, Electrochemical and Solid-State Letters 11  Issue: 2, H32-H35, 2008

5. Miranda PA, Imonigie JA, Moll AJ
Chemical mechanical planarization for Cu through-wafer interconnects - An investigation of slurry chemistry interaction effects using a design of experiments approach 
Journal of The Electrochemical Society 153 (3): G211-G217 2006

4. Moganty, S.S., Srinivasan, R., The role of arginine as a complexing agent in copper CMP, Materials Research Society Symposium Proceedings 914, pp. 207-212, 2006

3. M. Surya Sekhar and S. Ramanathan
Characterization of copper chemical mechanical polishing (CMP) in nitric acid–hydrazine based slurry for microelectronic fabrication , Thin Solid Films, 504 (1-2), pp. 227-230, 2006

2. Liu, Z., Li, H., Schmidt, R., Baker, R., Electrochemical testing of tantalum and copper in chemical mechanical polishing slurries, ECS Transactions 1 (4), pp. 465-475, 2005

1. Gorantla VRK, Goia D, Matijevic' E, et al.
Role of amine and carboxyl functional groups of complexing agents in slurries for chemical mechanical polishing of copper 
Journal of The Electrochemical Society 152 (12): G912-G916 2005

Bradford DC, Hutter E, Assiongbon KA, et al.
Infrared ellipsometry of self-assembled octadecylmercaptan on gold films and nanoislands: Effects of thickness and morphology of the gold layer 
Journal Of Physical Chemistry B 108 (45): 17523-17530, 2004 Times Cited: 7

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7. Optical characterization of thiolate self-assembled monolayers on Au(111) , Prato M, Moroni R, Bisio F, et al., J. Phys. Chem. C, 112 , 3899-3906, 2008

6. Optimization of the incident angle in infrared spectroscopic ellipsometry: Spectra of C-18-alkylthiol monolayers , Hu ZG, Hess P, JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A  25, 601-606 2007

5.Pedrosa VA, Paixao TRLC, Freire RS, et al.
Studies on the electrochemical behavior of a cystine self-assembled monolayer modified electrode using ferrocyanide as a probe 
Journal of Electroanalytical Chemistry 602 (2): 149-155, 2007

4. Hu ZG, Prunici P, Patzner P, et al.
Infrared spectroscopic ellipsometry of n-alkylthiol (C-5-C-18) self-assembled monolayers on gold 
J. Phys. Chem. B 110 (30): 14824-14831 2006

3. Leyton P, Domingo C, Sanchez-Cortes S, et al.
Surface enhanced vibrational (IR and Raman) spectroscopy in the design of chemosensors based on ester functionalized p-tert-butylcalix[4]arene hosts 
Langmuir 21: 11814-11820, 2005

2. Hinrichs K, Gensch M, Esser N
Analysis of organic films and interfacial layers by infrared spectroscopic ellipsometry
Applied Spectroscopy 59 (11): 272A-282A, 2005

1. Kudelski A
Characterization of thiolate-based mono- and bilayers by vibrational spectroscopy: A review 
Vibrational Spectroscopy 39 (2): 200-213 , 2005

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29. A Three-Dimensional Gold-Decorated Nanoporous Copper Core-Shell Composite for Electrocatalysis and Nonenzymatic Biosensing, Chen LY, Fujita T, Ding Y, et al., ADVANCED FUNCTIONAL MATERIALS, 20, 2279-2285, 2010

28. Synthesis of propionic acid at a gold electrode by electrochemical technique, Ahmad AB, Othman MR, SCIENCEASIA, 36, 81-84, 2010

27. Synergistic effect of Pd-Au bimetallic surfaces in Au-covered Pd nanowires studied for ethanol oxidation Cheng FL, Dai XC, Wang H, et al., ELECTROCHIMICA ACTA, 55, 2295-2298, 2010

26. Novel Nanoporous Au-Pd Alloy with High Catalytic Activity and Excellent Electrochemical Stability Author(s): Lang XY, Guo H, Chen LY, et al. JOURNAL OF PHYSICAL CHEMISTRY C, 114, 2600-260, 2010

25. Selvaraj V, Grace AN, Jothibasu S, et al., Synthesis and Characterization of Au/POSS Composite Powder for Bio-Fuel Cells and Antibiotic Applications , Journal of Nanoscience and Nanotechnology, 9, 5997-6002, 2009

24. Nagaraju DH, Lakshminarayanan V, Electrochemically Grown Mesoporous Gold Film as High Surface Area Material for Electro-Oxidation of Alcohol in Alkaline Medium, Journal of Physical Chemistry C, 113 14922-14926, 2009

23. Diu Y, Zhao W, Xu JJ, et al., Electrochemical determination of arsenite in neutral media on reusable gold nanostructured films, Talanta, 79, 243-248, 2009

22. Kim J, Lee SW, Hammond PT, et al., Electrostatic Layer-by-Layer Assembled Au Nano particle/MWNT Thin Films: Microstructure, Optical Property, and Electrocatalytic Activity for Methanol Oxidation, Chemistry of Materials, 21, 2993-3001, 2009

21. Serov A, Kwak C, Review of non-platinum anode catalysts for DMFC and PEMFC application, Applied Catalysis B- Environmental, 90, 313-320, 2009

20. Preparation of catalytic films of platinum on Au substrates modified by self-assembled PAMAM dendrimer monolayers,: Berchmans S, Arunkumar P, Lalitha S, et al., Applied Catalysis B- Environmental 88 , 557-563, 2009

19. O'Mullane AP, Ippolito SJ, Sabri YM, et al., Premonolayer Oxidation of Nanostructured Gold: An Important Factor Influencing Electrocatalytic Activity, Langmuir 25, 3845-3852, 2009

18.He QG, Chen W, Mukerjee S, et al., Carbon-supported PdM (M = Au and Sn) nanocatalysts for the electrooxidation of ethanol in high pH media, Journal of Power Sources 187, 298-304, 2009

17. Zhang XY, Li D, Bourgeois L, et al., Direct Electrodeposition of Porous Gold Nanowire Arrays for Biosensing Applications, Chemphyschem, 10, 436-441, 2009

16. Li WJ, Ma HY, Zhang JT, et al., Fabrication of Gold Nanoprism Thin Films and Their Applications in Designing High Activity Electrocatalysts, Journal of Physical Chemistry C 113, 1738-1745, 2009

15. He, Q., Chen, W., Mukerjee, S., Chen, S., Laufek, F., Carbon-supported PdM (M = Au and Sn) nanocatalysts for the electrooxidation of ethanol in high pH media Journal of Power Sources 187 (2), pp. 298-304, 2008

14. Rodriguez-Lopez, J., Alpuche-Aviles, M.A., Bard, A.J., Interrogation of surfaces for the quantification of adsorbed species on electrodes: Oxygen on gold and platinum in neutral media, Journal of the American Chemical Society 130 (50), pp. 16985-16995, 2008

13.Valentini F, Buldini PL, Landi E, et al., HPLC determination of tobramycin in a simulated body fluid, Microchemical Journal , 90, 113-117, 2008

12. Zhang, J., Ma, H., Zhang, D., Liu, P., Tian, F., Ding, Y., Electrocatalytic activity of bimetallic platinum-gold catalysts fabricated based on nanoporous gold, Physical Chemistry Chemical Physics 10, 3250-3255, 2008

11. Ballarin, B., Cassani, M.C., Scavetta, E., Tonelli, D., Self-assembled gold nanoparticles modified ITO electrodes: The monolayer binder molecule effect Electrochimica Acta 53, 8034-8044, 2008

10. Zhao, N., Wei, Y., Sun, N., Chen, Q., Bai, J., Zhou, L., Qin, Y., Qi, L., Controlled synthesis of gold nanobelts and nanocombs in aqueous mixed surfactant solutions, Langmuir 24 (3), 991-998, 2008

9. Shape-controlled synthesis of gold nanoprism and nanoperiwinkles with pronounced electrocatalytic activity, Jena BK, Raj CR, Journal of Physical Chemistry C 111   Issue: 42, 15146-15153, 2007

8. Direct oxidation of methanol on self-supported nanoporous gold film electrodes with high catalytic activity and stability, Yu CF, Jia FL, Ai ZH, et al.
Chemistry of Materials 19, 6065-6067, 2007

7. Nanoporous gold film electrode: Preparation by alloying/dealloying approach and electrochemical performance , Jia FL, Luo J, He Y, et al., CHINESE JOURNAL OF INORGANIC CHEMISTRY, 23, 1912-1916, 2007

6. Nanostructured porous gold for methanol electro-oxidation, Zhang, J., Liu, P., Ma, H., Ding, Y., Journal of Physical Chemistry C111 (28), pp. 10382-10388, 2007.

5. Jena BK, Raj CR
Synthesis of flower-like gold nanoparticles and their electrocatalytic activity towards the oxidation of methanol and the reduction of oxygen 
Langmuir 23: 4064-4070, 2007

4. C. Hartnig, J. Grimminger and E. Spohr
The role of water in the initial steps of methanol oxidation on Pt(2 1 1) 
Electrochimica Acta, 52 (6): 2236-2243 2007

3. Salem N, Andreescu S, Kulla E, et al.
Existence and reactivity of three forms of orthophthalaldehyde in aqueous solutions. Polarographic, voltammetric, and spectrophotometric study 
J. Phys. Chem. B A 111 (21): 4658-4670, 2007

2.Li XL, Wei TX
Surface plasmon resonance combined with conventional techniques 
Progress in Chemistry 19: 193-199, 2007

1. Sunil K. Arya, Pratima R. Solanki, Ravindra P. Singh, Manoj K. Pandey, Monika Datta and Bansi D. Malhotra
Application of octadecanethiol self-assembled monolayer to cholesterol biosensor based on surface plasmon resonance technique, Talanta 69, 918-926, 2006

P. C. Goonetilleke, S. V. Babu, and D. Roy
"Voltage-Induced Material Removal for Electrochemical Mechanical Planarization of Copper in Electrolytes Containing NO₃^-, Glycine, and H₂O_2",
Electrochemistry and Solid-State Letters 8, (2005) G190-193 Times Cited: 3

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3. Muthukumaran A, Venkataraman N, Tamilmani S, et al., Anodic dissolution of copper in dilute hydroxylamine solutions: application to electrochemical mechanical planarisation of copper, Corrosion Engg Sci a& Tech 44, 101-107, 2009

2. Shattuck, K.G., Lin, J.-Y., Cojocaru, P., West, A.C., Characterization of phosphate electrolytes for use in Cu electrochemical mechanical planarization, Electrochimica Acta 53 8211-8216, 2008

1.Liu FQ, Du TB, Duboust A, et al.
Cu planarization in electrochemical mechanical planarization 
Journal of The Electrochemical Society 153 (6): C377-C381 2006

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5.Shattuck, K.G., Lin, J.-Y., Cojocaru, P., West, A.C., Characterization of phosphate electrolytes for use in Cu electrochemical mechanical planarization, Electrochimica Acta 53 8211-8216, 2008

4. Bernard, P., Valette, S., Daveau, S., Abry, J.C., Tabary, P., Kapsa, Ph., Nature and removal of the modified layer in Cu CMP with ferric nitrate as oxidizer, Tribology International 41 (5), pp. 416-424, 2008

3. Xu, S., Chen, M., Cholewa, E., Szymanski, G., Lipkowski, J., Electric-field-driven surface aggregation of a model zwitterionic surfactant
Langmuir 23 , 6937-6946, 2007

2. Ein-Eli Y, Starosvetsky D
Review on copper chemical-mechanical polishing (CMP) and post-CMP cleaning in ultra large system integrated (ULSI) - An electrochemical perspective 
Electrochimica Acta, 52 (5): 1825-1838, 2007

1. Patri UB, Aksu S, Babu SV
Role of the functional groups of complexing agents in copper slurries 
Journal of The Electrochemical Society 153 (7): G650-G659 2006

Y. Hong, D. Roy and S. V. Babu,
"Ammonium Dodecyl Sulfate as a Potential Corrosion Inhibitor Surfactant for Electrochemical Mechanical Planarization of Copper",
Electrochemistry and Solid-State Letters 8, (2005) G297-G300. Times Cited: 10

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10. Effect of Cu-Ion Concentration in Concentrated H3PO4 Electrolyte on Cu Electrochemical Mechanical Planarization, Kung TM, Liu CP, Chang SC, et al., JOURNAL OF THE ELECTROCHEMICAL SOCIETY 157, H763-H770, 2010

9. Adsorption-desorption study of benzotriazole in a phosphate-based electrolyte for Cu electrochemical mechanical planarization, Lin JY, West AC, ELECTROCHIMICA ACTA, 55, 2325-2331, 2010

8. Chen MH, Burgess I, Lipkowski J, Potential controlled surface aggregation of surfactants at electrode surfaces - A molecular view, Surface Science , 603 1878-1891, 2009

7. Muthukumaran A, Venkataraman N, Tamilmani S, et al., Anodic dissolution of copper in dilute hydroxylamine solutions: application to electrochemical mechanical planarisation of copper, Corrosion Engg Sci a& Tech 44, 101-107, 2009

6. 5.Shattuck, K.G., Lin, J.-Y., Cojocaru, P., West, A.C., Characterization of phosphate electrolytes for use in Cu electrochemical mechanical planarization, Electrochimica Acta 53 8211-8216, 2008

5. Muthukumaran, A., Venkataraman, N., Raghavan, S., Evaluation of sulfonic acid-based solutions for electrochemical mechanical removal of tantalum , Journal of the Electrochemical Society 155 (3), H184-H187

4. Xu, S., Chen, M., Cholewa, E., Szymanski, G., Lipkowski, J. Electric-field-driven surface aggregation of a model zwitterionic surfactant 
Langmuir 23 , 6937-6946, 2007

3. Witteler, H., Organic corrosion inhibitors in metal surface finishing, Galvanotechnik 98 (8), pp. 1847-1854, 2007

2. Ein-Eli Y, Starosvetsky D
Review on copper chemical-mechanical polishing (CMP) and post-CMP cleaning in ultra large system integrated (ULSI) - An electrochemical perspective 
Electrochimica Acta, 52 (5): 1825-1838, 2007

1. Philipossian, A., Lee, H., Babu, S.V., Patri, U., Hong, Y., Economikos, L., Goldstein, M., (...), Borucki, L., Study of inhibition characteristics of slurry additives in copper CMP using force spectroscopy, ECS Transactions 2 (2), pp. 515-522 , 2006

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4. Hung, C.-C., Lee, W.-H., Wang, Y.-L., Investigation of slurry chemical corrosion on TaN barriers with plasma treatment, Journal of the Electrochemical Society 155, H744-H749 , 2008

3.Hung, C.-C., Lee, W.-H., Wang, Y.-S., Chang, S.-C., Wang, Y.-L., Investigation of galvanic corrosion between TaNx barriers and copper seed by electrochemical impedance spectroscopy, Electrochemical and Solid-State Letters 10 (10),D100-D103, 2007

2.Zhang J, Li ST, Carter PW
Chemical mechanical polishing of tantalum - Aqueous interfacial reactivity of tantalum and tantalum oxide 
Journal of The Electrochemical Society 154 (2): H109-H114 2007

1. Patri UB, Aksu S, Babu SV
Role of the functional groups of complexing agents in copper slurries 
Journal of The Electrochemical Society 153 (7): G650-G659 2006

D.C. Bradford, E. Hutter, J.H. Fendler and D. Roy,
"Surface-Enhanced Infrared Ellipsometry of Self-Assembled Undecanethiol and Dodecanethiol Monolayers on Disordered Gold Nanoisland Substrates”
J. Phys. Chem. B. 109, (2005), 20914-20922 Times Cited: 4

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4. Optical characterization of thiolate self-assembled monolayers on Au(111) , Prato M, Moroni R, Bisio F, et al., J. Phys. Chem. C, 112 , 3899-3906, 2008

3. Surface-enhanced infrared absorption: Infrared ellipsometry of au evaporated ultrathin organic films
Hinrichs K, Roseler A, Roodenko K, et al.
APPLIED SPECTROSCOPY 62, 121-124, 2008

2. Optimization of the incident angle in infrared spectroscopic ellipsometry: Spectra of C-18-alkylthiol monolayers , Hu ZG, Hess P, JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A  25, 601-606 2007

3. Hu ZG, Prunici P, Patzner P, et al.
Infrared spectroscopic ellipsometry of n-alkylthiol (C-5-C-18) self-assembled monolayers on gold 
J. Phys. Chem. B 110 (30): 14824-14831 2006

P.C. Goonetilleke and D. Roy,
"Electrochemical-mechanical planarization of copper: Effects of chemical additives on voltage controlled removal of surface layers in electrolytes",
Materials Chemistry and Physics 94 (2005) 388-400. Times Cited: 11

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11. Study on electrochemical mechanical polishing process of copper circuit on PCB, Kulyk N, An CY, Oh JH, et al., KOREAN JOURNAL OF CHEMICAL ENGINEERING, 27, 310-314, 2010

10. Han SJ, Seo YJ, Voltage-induced material removal mechanism of copper for electrochemical-mechanical polishing applications, 1st International Symposium on Hybrid Materials and Processing (HyMaP 2008), OCT 27-29, 2008 Busan, SOUTH KOREA Source: TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA, 19, Sp. Iss. 1, S262-S265, SEP 2009

9.Yi JJ, Chen CM, Tian XQ, et al., Basic experimental investigation of pulsed electrochemical mechanical polishing process Source: Surface Engineering, 25, 535-540, 2009

8. Muthukumaran A, Venkataraman N, Tamilmani S, et al., Anodic dissolution of copper in dilute hydroxylamine solutions: application to electrochemical mechanical planarisation of copper, Corrosion Engg Sci a& Tech 44, 101-107, 2009

7. Han SJ, Lee WS, Seo YJ, Voltage-Dependent Electrochemical Removal of Copper in KNO3 Electrolytes for Electrochemical-Mechanical Polishing Applications Journal of the Korean Physical Society, 53   Issue: 5, 2401-2406 , Part 1 Sp. Iss. SI, 2008

6. Lee YK, Lee WS, Seo YJ, Electrochemical Surface Evaluation of Copper by Using a Cyclic Voltammetry Method in a NaNO3 Electrolyte for ECMP Applications, Journal of the Korean Physical Society, 53   Issue: 5, 2485-2490 , Part 1 Sp. Iss. SI , 2008

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