Refereed Publications only:

109. M. Dokukin, R. Olac-Vaw, N. Guz, V. Mitin, and I. Sokolov “Addressable Photo-Charging of Single Quantum Dots Assisted with Atomic Force Microscopy Probe”, Applied Physics Letters, 2009, v.95, 173105.

108. Volkov, D., J. Benson, Y. Kievsky, I. Sokolov “Towards understanding of shape formation mechanism of mesoporous silica particles”, Phys.Chem. Chem. Phys., in press, DOI: 10.1039/b917424a (front page)

107. Strack, G; Chinnapareddy, S; Volkov, D; Halamek, J; Pita, M; Sokolov, I; Katz, E ”Logic Networks Based on Immunorecognition Processes” The Journal of Physical Chemistry B, 2009, 113, 12154-12159.

106. I.Sokolov " Interaction Between Silica Particles and Human Epithelial Cells: Atomic Force Microscopy and Fluorescence Study", in Cellular and Biomolecular Recognition, Ed. Jelinek, Wiley-VCH Verlag GmbH & Co., 2009, ISBN: 978-3-527-32265-7

105. Kirk, J. G., Naik, S., Volkov, D., Moosbrugger, J. C., Morrison, D. J. & Sokolov, I. (2009) Self-healing epoxy composites based on the use of nanoporous silica capsules. International Journal of Fracture, v. 159, n.1, p.101-102.

104. Iyer, S., R.M. Gaikwad, V. Subba-Rao, C.D. Woodworth, and I. Sokolov, “AFM Detects Differences in the Surface Brush on Normal and Cancerous Cervical Cells” Nature Nanotechnology, 2009: DOI: 10.1038/nnano.2009.77

103. N.V. Guz, R.M. Gaikwad, M.E. Dokukin, I. Sokolov, “A novel in-vitro stripping method to study geometry of corneocytes with fluorescent microscopy: example of aging skin”, 2009, Skin Research and Technology, in press.

102. Iyer, S., C.D. Woodworth, R.M. Gaikwad, Y.Y. Kievsky, and I. Sokolov, “Towards nonspecific detection of malignant cervical cells with fluorescent silica beads.” Small (Micro/Nano), 2009: p. in press.

101. Marcos Pita, Lili Cui, Ravi M. Gaikwad, Evgeny Katz and Igor Sokolov “High Sensitivity Molecular Detection with ELISA–Type Immunosensing”, Nanotechnology, Nanotechnology 19 (2008) 375502.

100. Ravi M. Gaikwad, Igor Sokolov, “Silica Nanoparticles to Polish Tooth Surface to Prevent Carious”, Journal of Dental Research, J Dent Res 87(10):980-983, 2008.

99. Cristina Ispas, Igor Sokolov and Silvana Andreescu, Enzyme-Functionalized Mesoporous Silica for Bionalytical Applications, Analytical and Bioanalytical Chemistry, 2008, p.543-554, Volume 393, Number 2 / January, 2009

98. S. Naik, I.Sokolov, Mesoporous “Silica Fibers and Discoids Endowed with Circular Pore Architecture using Disodium Trioxosilicate as Silica Source”, Microporous and Mesoporous Materials, 2008, in press Corrected Proof, Available online 5 June 2008

97. A Alavinasab, R Jha, G Ahmadi, C Cetinkaya and I Sokolov, “Computational modeling of nano-structured glass fibers”, Computational Material Science, 2008, Corrected Proof, Available online 30 June 2008

96. I.Sokolov, S.P. Naik, “Novel type of fluorescent silica nanoparticles: towards ultra-bright silica nanoparticles”, Small, Volume 4, Issue 7, Pages 934 – 939, 2008.

95. Y.Y. Kievsky, B. Carey, S. Naik, N. Mangan, D. ben-Avraham, and I. Sokolov Dynamics of molecular diffusion of rhodamine 6G in silica nanochannels, Journal of Chemical Physics (Communication), J. Chem. Phys. 128, 151102 (2008).

94. S.P. Naik , Igor Sokolov, “Room Temperature Synthesis of Nanoporous Silica Spheres and their Formation Mechanism” Solid State Communications, 2007 Volume 144, Issues 10-11, December 2007, Pages 437-440

93. S.P. Naik , Igor Sokolov, “Ultra-bright fluorescent silica particles: physical entrapment of fluorescent dye rhodamine 640 in nanochannels” in ACS Books Series “Nanoparticles: Synthesis, Stabilization, Passivation and Functionalization”, Eds: R. Nagarajan, T. Alan Hatton, (Oxford University Press, London, 2008), ch.16.

92. Igor Sokolov, Swaminathan Iyer, Venkatesh Subba-Rao, Ravi M. Gaikwad, and Craig D. Woodworth, “Atomic Force Microscopy Detects Surface Brush on Cells In-Vitro”, Applied Physics Letters, 91, 023902 _2007.

91. S.P. Naik , S. P. Elangovan , T. Okubo, and Igor Sokolov “Morphology Control of Mesoporous Silica Particles”. Journal of Physical Chemistry (C), v. 111, n. 30, pp. 11168 - 11173, 2007.

90. Q. Ong and I. Sokolov, “Attachment of nanoparticles to the AFM tips for direct measurements of interaction between a single nanoparticle and surfaces, ” Journal of Colloid and Interface Science, 2007, v. 310(2):385-90.

89. Igor Sokolov, Yaroslav Y. Kievsky, Jason M Kaszpurenko “Self-assembly of ultra-bright fluorescent silica particles”, Small, (2007) , v.3, (3), pp. 419-423.

88. Vladimir Privman, Alexander Dementsov, and Igor Sokolov, “Modeling of Self-Healing Polymer Composites Reinforced with Nanoporous Glass Fibers”, Journal of Computational and Theoretical Nanoscience (CTN), Vol. 4, 190–193, (2007)

87. Igor Sokolov, “Atomic Force Microscopy in Cancer Cell Research”, in Cancer Nanotechnology – Nanomaterials for Cancer Diagnosis and Therapy (eds by Hari Singh Nalwa, Thomas Webster ), 2007, ,pp.49-

86. Hasan Shodiev, Quy K. Ong, Nina Chechik, David James, Mike Oliver, Igor Sokolov “AFM Study of Forces between Silica, Silicon Nitride and Polyurethane Pads” Journal of Colloid and Interface Science, 300 (2006) 475–481.

85.S.Iyer, Ya. Kievesky, I. Sokolov, "Fluorescent Silica Colloids for Study and Visualization of Skin Care Products” Skin Research and Technology,2006; 12: 1–6.

84. I. Sokolov, S. Iyer, C. D. Woodworth “Recover of Elasticity of Aged Human Epithelial Cells In-Vitro”, Nanomedicine: Nanotechnology, Biology, and Medicine, 2006, vol.2, issue 1, p.31-36.

83. R.Sheparovych, Y.Sahoo, M. Motornov, Shumin Wang, H. Luo, P.N. Prasad, I. Sokolov, and S.Minko Polyelectrolyte stabilized nanowires from Fe3O4 nanoparticles via magnetic field induced self-assembly Chemistry of Materials, 2006, v.18, 591-593.

82. Igor Sokolov, Venkatesh Subba-Rao, and Linda A. Luck, Change in Rigidity in the Activated Form of the Glucose/ Galactose Receptor from E-coli: A Phenomenon That Will Be Key to the Development of Biosensors, Biophysical Journal, 2006; 90(3):1055-63.

81. Sokolov, I., A self-assembled nanoporous magnetic sensor. HAIT Journal of Science and Engineering A, 2005. Volume 2, p.2.

80. Sokolov, I. and Y. Kievsky, 3D Design of Self-Assembled Nanoporous Colloids. Studies in Surface Science and Catalysis, 2005. v. 156, pp. 433-443, (2005).

79. Sokolov, I. Copper CMP Mimicked with Atomic Force Microscopy. in ASME Proceedings World Tribology Congress III. 2005. WTC2005-64018

78. Sokolov, I., Q.K. Ong, N. Chechik, and D. James. On Direct Measurement Of Forces Between Cmp Polishing Pads And Abrasive Nanoparticles. in ASME Proceedings World Tribology Congress III. 2005. paper WTC2005-64160.

77. Ya. Kievsky and I. Sokolov Self-Assembly of Uniform Nanoporous Silica Fibers, IEEE Transactions on Nanotechnology, v.4 (5), pp.490-494.

76. Berdyyeva, T., C.D. Woodworth, and I. Sokolov, Visualization of cytoskeletal elements by the atomic force microscope. Ultramicroscopy, 2005. 102(3): p. 189-198.

75. Berdyyeva, T.K., C.D. Woodworth, and I. Sokolov, Human epithelial cells increase their rigidity with ageing in vitro: direct measurements. Physics in Medicine and Biology, 2005. 50(1): p. 81-92.

74. Firtel, M., G. Henderson, and I. Sokolov, Nanosurgery: observation of peptidoglycan strands in Lactobacillus helveticus cell walls. Ultramicroscopy, 2004. 101(2-4): p. 105-109.

73. Sokolov, I.Y., Pseudo-non-contact mode: why it can give true atomic resolution. Applied Surface Science, 2003. 210(1-2): p. 37-42.

72. Berdyyeva, T.K., S.B. Emery, and I.Y. Sokolov, In-situ study of the surface layer removal during the copper chemical mechanical polishing (CMP). Electrochemical and Solid-State Letters, 2003. 6(7): p. G91-G94.

71. Sokolov, I.Y. and G.S. Henderson, Simulation of observability of atomic defects by atomic force microscopy in contact and non-contact modes. Surface Science, 2002. 449: p. 135-144.

70. Sokolov, I., Anomalous increase of friction in the vicinity of atomic defects. Tribology Letters, 2002. 12: p. 131-135.

69. Sokolov, I., D.S. Smith, G.S. Henderson, Y.A. Gorby, and F.G. Ferris, Cell surface electrochemical heterogeneity of the Fe(III)-reducing bacteria Shewanella putrefaciens. Environmental Science & Technology, 2001. 35(2): p. 341-347.

68. Sokolov, I., G.S. Henderson, and F.J. Wicks, Model dependence of AFM simulations in non-contact mode. Surface Science, 2000. 457(1-2): p. 267-272.

66. Sokolov, I.Y. and G.S. Henderson, Atomic resolution imaging using the electric double layer technique: friction vs. height contrast mechanisms. Applied Surface Science, 2000. 157(4): p. 302-307.

66. Sokolov, I.Y. and G.S. Henderson, The height dependence of image contrast when Imaging by non-contact AFM. Surface Science, 2000. 464: p. L745-L751.

65. Ginzburg, M., J. Galloro, F. Jakle, K.N. Power-Billard, S.M. Yang, I. Sokolov, C.N.C. Lam, A.W. Neumann, I. Manners, and G.A. Ozin, Layer-by-layer self-assembly of organic-organometallic polymer electrostatic superlattices using poly(ferrocenylsilanes). Langmuir, 2000. 16(24): p. 9609-9614.

64. Sokolov, I.Y., G.S. Henderson, and F.J. Wicks, A force limitation for successful observation of atomic defects: defect trapping of the AFM tip, in Atomic Force Microscopy/Scanning Tunneling Microscopy, Cohen, Editor. 1999. p. 87-95.

63. Sokolov, I.Y., G.S. Henderson, and F.J. Wicks, Force spectroscopy in non-contact mode. Applied Surface Science, 1999. 140: p. 358-361.

62. Sokolov, I.Y., G.S. Henderson, and F.J. Wicks, Imitation of pseudo-non-contact mode while scanning in the presence of an electric double layer? Applied Surface Science, 1999. 140: p. 422-427.

61. Sokolov, I.Y., G.S. Henderson, and F.J. Wicks, "Pseudo"-non-contact AFM imaging? Applied Surface Science, 1999. 140: p. 362-365.

60. Sokolov, I.Y., G.S. Henderson, and F.J. Wicks, Theoretical and experimental evidence for “true” atomic resolution under non-UVH conditions. J. of Applied Physics, 1999. 86: p. 1-4.

59. Yang, S.M., H. Yang, N. Coombs, I. Sokolov, C.T. Kresge, and G.A. Ozin, Morphokinetics: Growth of mesoporous silica curved shapes. Advanced Materials, 1999. 11(1): p. 52-55.

58. Yang, S.M., I. Sokolov, N. Coombs, C.T. Kresge, and G.A. Ozin, Formation of hollow helicoids in mesoporous silica: Supramolecular Origami. Advanced Materials, 1999. 11(17): p. 1427-1431.

57. Sokolov, I., H. Yang, G.A. Ozin, and C.T. Kresge, Radial patterns in mesoporous silica. Advanced Materials, 1999. 11(8): p. 636-641.

56. Yang, H., G. Vovk, N. Coombs, I. Sokolov, and G.A. Ozin, Synthesis of mesoporous silica spheres under quiescent aqueous acidic conditions. Journal of Materials Chemistry, 1998. 8(3): p. 743-750.

55. Sokolov, I., T. Jiang, and G.A. Ozin, Tin sulfide mesh: AFM imaging of lamellae and mesopores. Advanced Materials, 1998. 10(12): p. 942-944.

54. Sokolov, I., G.S. Henderson, F.J. Wicks, and G.A. Ozin, Improved atomic force microscopy (AFM) resolution using an electrical double layer. Appled Phys.Letters, 1997. 70: p. 844-46.

53. Sokolov, I.Y., G.S. Henderson, and F.J. Wicks, The contrast mechanism for true atomic resolution by afm in non-contact mode: quasi-non-contact mode? Surface Science Lett, 1997. 381: p. L558-562.

52. Glogauer, M., Arora, P., Yao, G., Sokolov, I.,Ferrier, J. McCulloch, C. A. Calcium ions and tyrosine phosphorylation interact coordinately with actin to regulate cytoprotective responses to stretching, J Cell Sci., 1997, 110 ( Pt 1):11-21.

51. Ozin, G.A., R.L. Bedard, C.L. Bowes, N. Coombs, O. Dag, T. Jiang, A. Lough, S. Petrov, I. Sokolov, A. Verma, G. Vovk, and D. Young, Self-assembly of nanoporous tin(iv) sulfides in microgravity. Advanced Materials, Special Feature Article, 1997. 9: p. 1133-1149.

50. Ozin, G.A., H. Yang, I. Sokolov, and N. Coombs, Shell mimetics. Advanced Materials, 1997. 9(8): p. 662-667.

49. Yang, H., N. Coombs, I. Sokolov, and G.A. Ozin, Registered growth of mesoporous silica films on graphite. Journal of Materials Chemistry, 1997. 7(7): p. 1285-1290.

48. Ahari, H., R.L. Bedard, C.L. Bowes, N. Coombs, O. Dag, T. Jiang, G.A. Ozin, S. Petrov, I. Sokolov, A. Verma, G. Vovk, and D. Young, Effect of microgravity on the crystallization of a self-assembling layered material. Nature, 1997. 388(6645): p. 857-860.

47. Yang, H., N. Coombs, O. Dag, I. Sokolov, and G.A. Ozin, Free-standing mesoporous silica films; morphogenesis of channel and surface patterns. Journal of Materials Chemistry, 1997. 7(9): p. 1755-1761.

46. Sokolov, I., H. Yang, G.A. Ozin, and G.S. Henderson, Beyond the hemicylindrical micellar monolayer on graphite: AFM evidence for a lyotropic liquid crystal film. Advanced Materials, 1997. 9(11): p. 917-&.

45. Coombs, N., D. Khushalani, S. Oliver, G.A. Ozin, G.C. Shen, I. Sokolov, and H. Yang, Blueprints for inorganic materials with natural form: inorganic liquid crystals and a language of inorganic shape. Journal of the Chemical Society-Dalton Transactions, 1997(21): p. 3941-3952.

44. Dag, O., H. Ahari, N. Coombs, T. Jiang, P.P. ArocaOuellette, S. Petrov, I. Sokolov, A. Verma, G. Vovk, D. Young, G.A. Ozin, C. Reber, Y. Pelletier, and R.L. Bedard, Does microgravity influence self-assembly. Advanced Materials, 1997. 9(15): p. 1133-&.

43. Sokolov, I.Y., Casimir effect as a source of cosmic energy. Phys.Lett A, 1996. 223: p. 163-166.

42. Sokolov, I., M. Firtel, and G.S. Henderson, In situ high-resolution AFM imaging of biological surfaces. Journal of Vac.Sci.&Tech. B, 1996. 14: p. 674-678.

41. Sokolov, I.Y., On the recovery of spectroscopic images by AFM method. Journal of Vac.Sci.&Tech. A, 1996. 14: p. 2901-2905.

40. Moffat, J.W. and I.Y. Sokolov, Galaxy dynamics predictions in the nonsymmetric gravitational theory. Phys.Lett.B, 1996. 378: p. 59-67.

39. Yang, H., N. Coombs, I. Sokolov, and G.A. Ozin, Free-standing and oriented mesoporous silica films grown at the air-water interface. Nature, 1996. 381(6583): p. 589-592.

38. Moskaliuk, S.S., A.V. Nesteruk, and I.Y. Sokolov, Density perturbation in the universe with nontrivial topology of space-time. Hadronic J, 1995. 18: p. 392-401.

37. Bordag, M., V.M. Mostepanenko, and I.Y. Sokolov, Casimir-type null experiment for obtaining stronger restrictions on constants of long range interactions. Gravity and Cosmology, 1995. 1: p. 25-30.

36. Blagov, E.V., V.I. Panov, V.M. Mostepanenko, and I.Y. Sokolov, On possibility of determining of the migration energy of point-like defects by scanning force microscope. Sov.Tech.Phys.Lett., 1994. 20: p. 71-74.

35. Blagov, E.V., Y.N. Moiseev, A.Y. Musatenko, V.I. Panov, S.V. Savinov, V.M. Mostepanenko, and I.Y. Sokolov, Theoretical and experimental investigations of bi-ceramics with logitudial disposition of monocrystallites by the methods of scanning tunneling and atomic force microscopies. Sov.Tech.Phys., 1994. 64: p. 1-5.

34. Sokolov, I.Y., On the limits on spectroscopic ability of afm and interaction between an afm tip and a sample. Surface Science, 1994. 311: p. 287-294.

33. Bordag, M., V.M. Mostepanenko, and I.Y. Sokolov, On the strengthening of restrictions on hypothetical yukawa type forces with extremely small range of action. Phys.Lett A, 1994. 187: p. 35-39.

32. Bordag, M., V.M. Mostepanenko, and I.Y. Sokolov, Restrictions on the hypothetical long range interactions from the casimir type null experiment with three test bodies. Mod.Phys.Lett A, 1994. 9: p. 2671-2680.

31. Sokolov, I.Y., The Casimir effect as a possible source of cosmic energy. What is Next, ed. J.R. Cudell. 1994: World Scientific. 119-124.

30. Blagov, E.V., V.I. Panov, V.M. Mostepanenko, and I.Y. Sokolov, Diagnostics of radiation-induced point defects by atomic force microscopy. Sov.Tech.Phys.Lett. (USA), 1993. 19: p. 254-256.

29. Mostepanenko, V.M., V.I. Panov, and I.Y. Sokolov, Broken continuity of the lines of constant force above a surface with a relief step and the resolution of AFM. Sov.Tech.Phys.Lett. (USA), 1993. 19: p. 251-254.

28. Mostepanenko, V.M. and I.Y. Sokolov, Hypothetical long-range interactions and restrictions on their parameters from force measurements. Physical Review D. Particles And Fields, 1993. 47(7): p. 2882-2891.

27. Sokolov, I.Y., Topologically nontrivial nature of the universe in connection with the anisotropy of the background radiation. JETP Lett, 1993. 57: p. 617-621.

26. Mostepanenko, V.M. and I.Y. Sokolov, Restrictions on objects of quantum gravity from terrestrial experiments, in Relativistic Astrophysics and Cosmology, S. Gottlober, J.P. Mecket, and V. Muller, Editors. 1992, World Sci.: Singapore. p. 262-268.

25. Mostepanenko, V.M. and I.Y. Sokolov, Hypothetical long-range forces and modern experiments, in QFT under Influence of External Conditions. 1992, World Scientific. p. 257-272.

24. Blagov, E.V., Y.N. Moiseev, V.M. Mostepanenko, V.I. Panov, and I.Y. Sokolov, Investigation of intercrisstal boundaries of high-Tc ceramics by atomic force microscopy method. Sov.Tech.Phys.Lett. (USA), 1992. 18: p. 10-13.

23.Sokolov, I.Y., Anisotropy of cosmic background radiation and initial conditions for quantum inflaton field. Class. Quant. Grav, 1992. 9: p. L61-L67.

22. Mostepanenko, V.M. and I.Y. Sokolov. Hypothetical long range forces and modern experiments. in quantum field theory under the influence of external conditions. 1992. Leipzig Proceedings, Germany.

21. Blagov, E.V., Y.N. Moiseev, V.M. Mostepanenko, V.I. Panov, and I.Y. Sokolov, Study of high-temperature superconductive phase of ceramic by means of atomic force microscope. Sov.Tech.Phys.Lett. (USA), 1991. 8: p. 87-91.

20. Mostepanenko, V.M. and I.Y. Sokolov, Optimal experiment of Cavendish type for search of restrictions on light particles in quantum gravity, in 5th Seminar on Quantum Gravity. 1991, World Sci.: Singapore. p. 213-233.

19. Mostepanenko, V.M. and I.Y. Sokolov, Suggestion of a new experiment on measuring Casimir forces for the search of hypothetical long-range interactions, in Modern Progress of Theoretical Physics. 1991, World Sci.: Singapore. p. 175-196.

18. Mostepanenko, V.M. and I.Y. Sokolov, On the optimal experiment of Casimir force measurements for the search of new long range interactions., in Modern Problems of Theoretical Physics, P.I. Pronin and Y.N. Obukhov, Editors. 1991: Moscow, USSR. p. 175-196.

17. Mostepanenko, V.M. and I.Y. Sokolov. Restrictions on the objects of quantum gravity from terrestrial experiments. in Relativistic astrophysics and cosmology. 1991: Potsdam 1991.

16. Mostepanenko, V.M. and I.Y. Sokolov, Laboratory tests for the constituents of dark matter. Astron.Nachr.(Germany), 1990. 311: p. 199-202.

15. Moiseev, Y.N., V.M. Mostepanenko, V.I. Panov, and I.Y. Sokolov, Experimental and theoretical research of forces and spatial resolution of atomic force microscope. Sov.Tech.Phys.Lett. (USA), 1990. 35: p. 84-88.

14. Mostepanenko, V.M. and I.Y. Sokolov, Stronger restrictions on the constants of long range forces decreasing as r**(-n). Phys.Lett A, 1990. 146: p. 373-374.

13. Mostepanenko, V.M. and I.Y. Sokolov, Optimal cavendish type experiment for the search of restrictions on light particles of quantum gravity, in Quantum Gravity. 1990: Moscow, USSR. p. 213-232.

12. Panov, V.I., Y.N. Moiseev, V.M. Mostepanenko, and I.Y. Sokolov. Experimental limitation on "fifth force" parameters. in 5th Marcel Grossman Meeting on General Relativity. 1989: World Sci.

11. Moiseev, Y.N., V.M. Mostepanenko, V.I. Panov, and I.Y. Sokolov, Restrictions on Yukawa-type long-range interaction resulting from atomic force microscopy. Sov.Phys.Dokl. (USA), 1989. 34: p. 147-151.

10. Moiseev, Y.N., V.M. Mostepanenko, V.I. Panov, and I.Y. Sokolov, Spectroscopy of interatomic interactions by atomic force microscopy method. Sov.Tech.Phys.Lett. (USA), 1989. 15: p. 789-792.

9. Mostepanenko, V.M. and I.Y. Sokolov, Restrictions on the parameters of the spin-1 antigraviton and the dilaton resulting from the Casimir effect and from the Eotvos and Cavendish experiments. Sov.J.Nucl.Phys., 1989. 49: p. 1118-1120.

8. Mostepanenko, V.M. and I.Y. Sokolov, On the Casimir forces between arbitrary forms bodies. Sov.Phys.Dokl.(USA), 1988. 33: p. 140-142.

7. Moiseev, Y.N., V.M. Mostepanenko, V.I. Panov, and I.Y. Sokolov, Force dependencies for the definition of the spatial resolution of the atomic force microscope. Phys.Lett.A, 1988. 132: p. 354-358.

6. Mostepanenko, V.M. and I.Y. Sokolov, Energy-momentum tensor of intermediate vector bosons in an external electromagnetic field. Theor.Math.Phys.(USA), 1988. 74: p. 137-145.

5. Mostepanenko, V.M. and I.Y. Sokolov, New restrictions on the parameters of the spin 1 anti-graviton following from the casimir effect, Eotvos and Cavendish experiments. Phys.Lett A, 1988. 132: p. 313-315.

4. Panov, V.I., Y.N. Moiseev, V.M. Mostepanenko, and I.Y. Sokolov. Experimental limitation on the 'fifth force' parameters. in Recent developments in theoretical and experimental general relativity, gravitation and relativistic field theories. 1988. Moscow State Unversity.

3. Mostepanenko, V.M. and I.Y. Sokolov, The Casimir effect leads to new restrictions on long-range force constants. Phys.Lett.A, 1987. 125: p. 405-409.

2. Mostepanenko, V.M. and I.Y. Sokolov, Restrictions on long range forces owing to the Casimir effect. Sov.J.Nucl.Physics, 1987. 46: p. 1174-1180.

1. Sokolov, I.Y., On decay of muon to electron and majoron. Sov.J.Nucl.Phys., 1986. 40: p. 986-989.