The most cited papers:
(Total citation index >
20,000)
Citation index was taken on January 23, 2010 from
1) 901 times (the
most cited paper in ChemPhysChem)
A.N. Shipway, E. Katz, I.
Willner
Nanoparticle arrays on
surfaces for electronic, optical and sensoric applications.
ChemPhysChem 2000, 1, 18-52.
2) 700 times
E. Katz, I.
Willner
Integrated
nanoparticle-biomolecule hybrid systems: Synthesis, properties and
applications.
Angew. Chem. Int. Ed. 2004,
43, 6042-6108.
3) 460 times
I. Willner, E. Katz
Integration of layered
redox-proteins and conductive supports for bioelectronic applications.
Angew. Chem. Int. Ed. 2000,
39, 1180-1218.
4) 398 times
Y. Xiao, F. Patolsky, E. Katz, J.F.
Hainfeld, I. Willner
'Plugging into enzymes':
Nanowiring of redox-enzymes by a gold nanoparticle.
Science 2003, 299,
1877-1881.
5) 309
times
E.
Katz, I. Willner
Probing biomolecular
interactions at conductive and semiconductive surfaces by impedance
spectroscopy:
Routes to impedimetric immunosensors,
DNA-sensors, and enzyme
biosensors. (Review)
Electroanalysis
2003, 15, 913-947.
6) 296 times
A. Doron, E.
Katz, I. Willner
Organization of Au-colloids
as monolayer films onto ITO-glass surfaces:
Application of the metal-colloid
films as base interfaces to construct redox-active and photoactive
self-assembled monolayers.
Langmuir 1995, 11,
1313-1317.
7)
210 times
E. Katz, I.
Willner, J. Wang
Electroanalytical and
bioelectroanalytical systems based on metal and semiconductive
nanoparticles.
Electroanalysis 2004, 16, 19-44.
8)
207 times
I. Willner, V. Heleg-Shabtai, R. Blonder, E. Katz, G. Tao, A.F. Bückmann, A.
Heller
Electrical wiring of
glucose oxidase by reconstitution of FAD-modified monolayers assembled
onto
Au-electrodes.
J. Am. Chem. Soc. 1996, 118, 10321-10322.
9) 165 times
I. Willner, A. Riklin, B. Shoham, D. Rivenzon, E. Katz
Development of novel
biosensor enzyme-electrodes: glucose oxidase multilayer
arrays immobilized onto
self-assembled monolayers on electrodes.
Adv. Mater. 1993, 5,
912-915.
10) 154 times
E. Katz,
I. Willner, A.B. Kotlyar
A non-compartmentalized
glucose-O2 biofuel cell by bioengineered electrode surfaces.
J. Electroanal. Chem. 1999,
479, 64-68.
11) 135 times
O.A. Raitman, E.
Katz, A.F. Bückmann, I. Willner
Integration of
polyaniline/polyacrylic acid films and redox-enzymes on electrode
supports:
An
in situ electrochemical/surface plasmon resonance study of the
bioelectrocatalyzed oxidation
of glucose or lactate in the integrated
bioelectrocatalytic systems.
J. Am. Chem. Soc. 2002, 124, 6487-6496.
12) 133 times
E. Katz, D.D. Schlereth, H.-L. Schmidt
Electrochemical study of
pyrroloquinoline quinone covalently immobilized as monolayer onto a
cystamine
modified gold electrode.
J. Electroanal. Chem. 1994,
367, 59-70.
13) 132 times
E. Katz, T. Lötzbeyer, D.D. Schlereth, W.
Schuhmann, H.-L. Schmidt
Electrocatalytic oxidation
of reduced nicotinamide coenzymes at gold and platinum
electrode surfaces
modified with a monolayer of pyrroloquinoline quinone. Effect of Ca2+
cations.
J. Electroanal. Chem. 1994,
373, 189-200.
14) 131 times
I. Willner, E.
Katz, B. Willner
Electrical contact of redox
enzyme layers associated with electrodes: Routes to amperometric
biosensors.
Electroanalysis 1997, 13, 965-977.
15) 126 times
A. Riklin, E.
Katz, I. Willner, A. Stoker, A.F. Bückmann
Reconstitution of
flavoenzyme-derived apoproteins with ferrocene-modified
FAD cofactor yields
electroactive enzymes.
Nature 1995, 376,
672-675.
16) 126 times
F. Patolsky, E.
Katz, A. Bardea, I. Willner
Enzyme-linked amplified
electrochemical sensing of oligonucleotide-DNA interactions
by means of the precipitation of an insoluble
product and using impedance spectroscopy.
Langmuir 1999, 15, 3703-3706.
17) 124 times
I. Willner, N. Lapidot, A. Riklin, R.
Kasher, E.
Zahavy, E. Katz
Electron transfer
communication in glutathione reductase assemblies:
Electrocatalytic,
photocatalytic and catalytic systems for the reduction of oxidized
glutathione.
J. Am. Chem. Soc. 1994, 116, 1428-1441.
18) 110 times
I. Willner, E.
Katz, A. Riklin, R. Kasher
Mediated electron transfer
in glutathione reductase organized in self-assembled monolayers on Au
electrodes.
J. Am. Chem. Soc. 1992, 114, 10965-10966.
19) 110 times
M. Lahav, V. Heleg-Shabtai, J. Wasserman, E. Katz, I. Willner, H. Dürr, Y.-Z. Hu,
S. Bossmann
Photoelectrochemistry with
integrated photosensitizer-electron acceptor and Au-nanoparticle arrays.
J. Am. Chem. Soc. 2000, 122, 11480-11487.
20) 108 times
I. Willner, M. Lion-Dagan, S.
Marx-Tibbon, E. Katz
Bioelectrocatalized
amperometric transduction of optical signals using monolayer-modified
Au-electrodes.
J. Am. Chem. Soc. 1995, 117, 6581-6592.
21) 103 times
A. Bardea, E.
Katz, A.F. Bückmann, I. Willner
NAD+-Dependent
enzyme electrodes: Electrical contact of cofactor-dependent enzymes and
electrodes.
J. Am. Chem. Soc. 1997, 119, 9114-9119.
22) 101 times
E. Katz, N. Itzhak, I.
Willner
Electron transfer in
self-assembled monolayers of N-methyl-N'-carboxy-alkyl-4,4'-bipyridinium
linked
to gold electrodes.
Langmuir 1993, 9, 1392-1396.
23) 101 times
E. Katz, O. Lioubashevsky, I.
Willner
Electromechamics of a
redox-active rotaxane in a monolayer assembly on an electrode.
J. Am. Chem. Soc. 2004, 126, 15520-15532.
24) 100 times
R. Blonder, E.
Katz, Y. Cohen, N. Itzhak, A. Riklin, I. Willner
Application of
redox-enzymes for probing the antigen-antibody association at monolayer
interfaces: Development of amperometric immunosensor electrodes.
Anal. Chem. 1996, 68, 3151-3157.
25) 96 times
I. Willner, V. Pardo-Yissar,
E. Katz,
K.T. Ranjit
A
photoactivated "Molecular Train" for optoelectronic applications:
light-stimulated translocation of a b-cyclodextrin
receptor within a stoppered
azobenzene-alkyl
chain supramolecular monolayer assembly on a
Au-electrode.
J. Electroanal. Chem. 2001, 497, 172-177
26) 95 times
F. Patolsky, M. Zayats, E. Katz,
I. Willner
Precipitation of an
insoluble product on enzyme-monolayer-electrodes for biosensor
applications:
characterization by Faradaic impedance spectroscopy,
cyclic voltammetry and
microgravimetric quartz-crystal-microbalance analyses.
Anal. Chem. 1999, 71, 3171-3180.
27) 94 times
E. Katz, A.A. Solov'ev
Chemical modification of
platinum and gold electrodes by naphthoquinones using amines containing
sulfhydryl or disulphide groups.
J. Electroanal. Chem. 1990,
291, 171-186.
28)
88 times
E. Katz,
A.F. Bückmann, I. Willner
Self-powered enzyme-based
biosensors.
J. Am. Chem. Soc. 2001,
123,
10752-10753.
29)
86 times
E. Katz, I. Willner
A
biofuel cell with electrochemically switchable and tunable power output.
J.
Am. Chem. Soc. 2003,
125, 6803 - 6813.
30)
84 times
V.
Pardo-Yissar, E. Katz, J.
Wasserman, I. Willner
Acetylcholine esterase-labeled CdS
nanoparticles on
electrodes: Photoelectrochemical sensing of
the enzyme inhibitors.
J.
Am. Chem. Soc. 2003,
125, 622-623.
31) 83 times
V.
Pardo-Yissar, E. Katz,
O. Lioubashevski, I.
Willner
Layered
polyelectrolyte films on Au-electrodes: Characterization of
electron-transfer
features at the
charged-polymer-interface and
application for selective redox reactions.
Langmuir
2001, 17, 1110-1118.
32) 81 times
T. Lötzbeyer, W. Schuhmann, E.
Katz, J. Falter, H.-L. Schmidt
Direct electron transfer
between the covalently immobilized enzyme microperoxidase
MP-11 and a
cystamine-modified gold electrode.
J. Electroanal. Chem. 1994,
377, 291-294.
33) 80 times
A. Doron, M. Portnoy, M. Lion-Dagan, E. Katz, I. Willner
Amperometric transduction
and amplification of optical signals recorded by
a phenoxynaphthacenequinone
monolayer electrode: Photochemical and pH-gated electron transfer.
J. Am. Chem. Soc. 1996, 118, 8937-8944.
34)
77 times
A.B. Kharitonov, M. Zayats, A.
Lichtenstein, E.
Katz, I. Willner
Enzyme monolayer-functionalized field-effect transistors for biosensor
applications.
Sensors
& Actuators B 2000, 70, 222-231.
35) 76
times
E. Katz, I.
Willner
Kinetic separation of amperometric
responses of composite redox-active monolayers
assembled onto Au-electrodes:
Implication to the monolayer structure and composition.
Langmuir 1997, 13, 3364-3373.
36) 75 times
I. Willner, E. Katz,
N. Lapidot, P. Baüerle
Bioelectrocatalysed
reduction of nitrate utilizing polythiophene bipyridinium enzyme
electrodes.
Bioelectrochem. Bioenerg. 1992,
29, 29-45.
37) 73 times
E. Katz,
A. Riklin, V. Heleg-Shabtai, I. Willner,
A.F. Bückmann
Glucose oxidase electrodes
via reconstitution of the apo-enzyme: Tailoring of novel glucose
biosensors.
Anal. Chim. Acta 1999, 385, 45-58.
38) 71 times
R. Hirsch, E.
Katz, I. Willner
Magneto-switchable
bioelectrocatalysis.
J. Am. Chem. Soc. 2000,
122, 12053-12054.
39) 70 times
I. Willner, E. Katz
Magnetic control of
electrocatalytic and bioelectrocatalytic processes. (Mini-review).
Angew.
Chem. Int. Ed. 2003, 42,
4576-4588.
40) 69 times
A. Doron, E. Katz,
G. Tao, I.
Willner
Photochemically-, chemically- and
pH-controlled electrochemistry at functionalized spiropyran monolayer
electrode.
Langmuir 1997, 13, 1783-1790.
41) 69
times
E. Katz,
L. Sheeney-Ichia, I. Willner
Electrical contacting of
glucose oxidase in a redox-active rotaxane configuration.
Angew. Chem. Int. Ed.
2004,
43,
3292-3300.
42) 68 times
I. Willner, V. Heleg-Shabtai, E.
Katz, H.K. Rau, W. Haehnel
Integration of a
reconstituted de novo synthesized hemoprotein and native metalloproteins
with
electrode supports for bioelectronic and bioelectrocatalytic
applications.
J. Am. Chem. Soc. 1999, 121, 6455-6468.
43) 67 times
E. Katz,
V. Heleg-Shabtai, B. Willner, I.
Willner, A.F. Bückmann
Electrical contact of redox
enzymes with electrodes: Novel approaches for amperometric biosensors.
Bioelectrochem. Bioenerg. 1997,
42, 95-104.
44) 66 times
F. Patolsky, B. Filanovsky, E.
Katz, I.
Willner
Photoswitchable antigen-antibody
interactions studied by impedance spectroscopy.
J. Phys. Chem. B 1998, 102, 10359-10367.
45)
66 times
R. Baron, O. Lioubashevski, E.
Katz, T. Niazov, I. Willner
Elementary arithmetic operations by enzymes: A model
for metabolic pathway based computing.
Angew. Chem.
Int. Ed. 2006, 45, 1572-1576.
46) 65 times
M. Lion-Dagan, E. Katz,
I.
Willner
Amperometric
transduction of optical signals recorded by organized monolayers of
photoisomerizable biomaterials on Au-electrodes.
J.
Am. Chem. Soc. 1994, 116,
7913-7914.
47) 64 times
M. Zayats, E. Katz, I.
Willner
Electrical
contacting of flavoenzymes and NAD(P)+-dependent enzymes by
reconstitution and affinity
interactions on
phenylboronic acid monolayers associated
with Au-electrodes.
J.
Am. Chem. Soc. 2002, 124,
14724-14735.
48) 63 times
I. Willner, A. Doron, E. Katz,
S. Levi, A.J. Frank
Reversible associative and
dissociative interactions of glucose oxidase with nitrospiropyran
monolayers
assembled onto Au-electrodes:
Amperometric transduction of recorded optical
signals.
Langmuir 1996,
12, 946-954.
49) 62 times
R. Blonder, E. Katz, I.
Willner,
V. Wray, A.F. Bückmann
Application of a
nitrospiropyran-FAD reconstituted glucose oxidase and charged electron
mediators as optobioelectronic
assemblies for the amperometric
transduction of
recorded optical signals: Control of the "ON"-"OFF"
direction of the photoswitch.
J. Am. Chem. Soc. 1997, 119, 11747-11757.
50)
61 times
I. Willner, G. Arad, E. Katz
A biofuel cell
based on pyrroloquinoline quinone and microperoxidase-11
monolayer-functionalized electrodes.
Bioelectrochem. Bioenerg.
1998,
44, 209-214.
51) 60
times
M. Lion-Dagan, E. Katz, I. Willner
Amperometric transduction
of optical signals recorded by organized monolayers of
photoisomerizable
biomaterials on Au-electrodes.
J. Am. Chem. Soc. 1994, 116, 7913-7914.
52) 60 times
E. Katz,
D.D. Schlereth., H.-L. Schmidt, A.J.J.
Olsthoorn
Reconstitution of the
quinoprotein glucose dehydrogenase from its apoenzyme on a gold
electrode
surface modified with a monolayer of pyrroloquinoline quinone.
J. Electroanal. Chem. 1994,
368, 165-171.
53) 60
times
L.
Alfonta, A. Bardea, O. Khersonsky, E.
Katz, I.
Willner
Chronopotentiometry
and Faradaic impedance spectroscopy as signal transduction methods for
the
biocatalytic precipitation
of an insoluble product on electrode
supports:
Routes for enzyme sensors, immunosensors and DNA-sensors.
Biosens. Bioelectron. 2001,
16, 675-687.
54) 60
times
F. Patolsky, Y. Weizmann, E.
Katz,
I. Willner
Magnetically amplified DNA assays
(MADA): Sensing of
viral DNA and single base mismatches
using nucleic acid-modified magnetic particles.
Angew.
Chem. Int. Ed. 2003,
42, 2372-2376.
55)
60 times
E.
Katz,
I. Willner
Biomolecule-functionalized
carbon nanotubes: Applications in nanobioelectronics
ChemPhysChem 2004,
5,
1084-1104.
56) 59 times
E. Granot, E. Katz, B. Basnar,
I. Willner
Enhanced
bioelectrocatalysis using Au-nanoparticle/polyaniline hybrid systems in
thin
films and microstructured rods assembled on electrodes.
Chem. Mater. 2005, 17, 4600-4609.
57) 59 times
F. Patolsky, E. Katz,
I. Willner
Amplified DNA detection by
electrogenerated
biochemiluminescence and by the catalyzed precipitation of an insoluble
product
on
electrodes in the presence of the
doxorubicin intercalator.
Angew.
Chem. Int. Ed. 2002,
41, 3398-3402.
58)
58 times
M. Zayats, E. Katz, I. Willner
Electrical
contacting of glucose oxidase by surface reconstitution of the
apo-protein on a
relay-boronic acid-FAD cofactor monolayer.
J.
Am. Chem. Soc. 2002, 124,
2120-2121.
Personal
Hirsch-index: 58
(Hirsch-index is expressed as
number of papers with same or
greater citations; see definition of the Hirsch-index: http://en.wikipedia.org/wiki/H-index)
Hirsch-index ranking of living chemists can be found here.
More information about Hirsch-index can be found here.
(updated & corrected on January 23,
2010)
