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Thin Films and Coatings Publications

In this Section

(CAMP Faculty names in bold)

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

Ya. Kievsky and I. Sokolov, “Self-Assembly of Uniform Nanoporous Silica Fibers,” IEEE Transactions on Nanotechnology, v.4 (5), 490-494 (2005).

Y. Kievesky and I. Sokolov, “Self-Assembly of Fluorescent Silica (glass) Beads,” Proceedings of the 2005 Nanotechnology Conference, Nanotech 2005, Volume 1, 214-215 (2005).

Patents :
I. Sokolov and Ya. Kievsky, “Self-Assembly of Nanoporous Silica Fibers of Uniform Shape,” approved as pending in Dec.2004 US60/631,224 (Full patent filed in Nov.2005).

L.L. Regel, S. Tan, W.R. Wilcox and A.D. Cropper, "Low-temperature, low-pressure deposition of diamond on polymers by chemical vapor transport in a closed chamber," submitted to J. Mat. Res. Lettr.

J.H. Fendler, Colloidal Nanoparticles and NanoparticulateFilms Grown at the Air-Water Interface in Reactions and Synthesis in Surfactant Systems (ed. John Texter), Marcel Dekker, Inc., New York, 633 (2001).

J.H. Fendler, Chemical Self-assembly for Electronic Applications Chem. Mater., (2001)

L.L. Regel and W.R. Wilcox, Diamond Film Deposition by Chemical Vapor Transport, Acta Astronautica 48, 129-144 (2001).

L.L. Regel and W.R. Wilcox, editors, Processing by Centrifugation, Proceedings of the Fourth International Workshop on Materials Processing at High Gravity, Kluwer Academic/Plenum, New York (2001).

L.L. Regel and W.R. Wilcox, Influence of Centrifugation on Diamond Film Deposition by Chemical Vapor Transport, ibid, pp 113-120 (2001).

I. Sokolov, 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, 35, 341 ( 2001 ).

T.P. Cassagneau, B. Seryda-Krawiec, and J.H. Fendler, Rectifying Self-Assembled Ultrathin Films, Mater. Rsch. Bulletin, 25(9), 40 (2000).

T. Cassagneau, J.H. Fendler, and T. E. Mallouk, Optical and Electrical Characterizations of Ultrathin Films Self-assembled from 11-Aminoundecanoic Acid Capped TiO2 Nanoparticles and Polyallylamine Hydrochloride, Langmuir, 16 (1), 241 (2000).

D.M. Guldi, M. Maggini, S. Mondini, G. Scorrano, F. Guerin, and J. H. Fendler, Formation, Characterization and Properties of Nanostructured [Ru(bpy)3]2+-C60 Langmuir-Blodgett Films in situ at the Air-Water Interface and ex situ on Substrates, Langmuir, 16 (3), 1311 (2000).

T. Cassagneau, F. Guerin, and J.H. Fendler, Preparation and Characterization of Ultrathin Films Layer-by-Layer Self-assembled from Graphite Oxide Nanoplatelets and Polymers, Langmuir, 16 (18), 7318 (2000).

T. Cassagneau, J.H. Fendler, S.A. Johnson, and T.E. Mallouk, "Self-assembled Diode Junctions Prepared from a Ruthenium Tris (Bipyridyl) Polymer, n-Type TiO2 Nanoparticles and Graphite Oxide Sheets," Adv. Mater., 12 (18), 1363 (2000).

D.I. Popov, L.L. Regel and W.R. Wilcox, One-Dimensional Phase-Field Model for Binary Alloys, J. Crystal Growth 212, 574-583 (2000).

L.L. Regel and W.R. Wilcox, Deposition of diamond on graphite and carbon felt from graphite heated in hydrogen at low pressure, J. Mat. Res. Lettr., 19, 455 (2000). ( plus cover photo).

I.Yu. Sokolov and G.S. Henderson, The Height Dependence of Image Contrast when Imaging by Non-Contact AFM, Surface Science, 464, L745 (2000).

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

I.Yu. Sokolov, G.S. Henderson, and F.J. Wicks, Model Dependence of AFM Simulations in Non-Contact Mode, Surface Science, 457, 267 ( 2000).

L.L. Regel and W.R. Wilcox, Selective Patterned Deposition of Diamond using a New Technique, J. Mat. Res. Lettr., 18, 427 (1999). ( plus cover photo).

L.L. Regel and W.R. Wilcox, Diamond Film Deposition by a New Technique: Patterned Selective; Graphite, Glass, Carbon Felt and Silicon Substrates; Influence of Centrifugation, Proceedings of the 1999 NSF Design and Manufacturing Grantees Conference, Los Angeles, University of Southern California (January 1999).

I.Yu. Sokolov, G.S. Henderson, and F.J. Wicks, Theoretical and Experimental Evidence for "True" Atomic Resolution under Non-UHV conditions, J. of Applied Physics, 86, 1 (1999).

San Ming Yang, Igor Sokolov, Neil Coombs, Charles T. Kresge and Geoffrey A. Ozin, Supramolecular Origami: hollow helicoids of mesoporous silica, Adv. Mater., 11, 1427 ( 1999). (Title Page).

Igor Sokolov, Hong Yang, Geoffrey A. Ozin and Charles T. Kresge, Radial patterns in mesoporous silica, Adv. Mater., 11, 636 (1999).

I. Sokolov, G. Henderson, and F. Wicks, "Pseudo"-non-contact AFM imaging? Applied Surface Science, 140, .362 (1999).

Ozin, G.A., Kresge, C.T., Yang, S.M., Yang, H., Sokolov I., and Coombs, N., Morphokinetics: Growth of Mesoporous Silica Curved Shapes, Adv. Materials, 11, 52 (1999).

I. okolov, G. Henderson, and F. Wicks, Imitation of pseudo-non-contact mode while scanning in the presence of an electric double layer? Applied Surface Science, 140, 422 (1999).

I. Sokolov, G. Henderson, and F. Wicks, Force spectroscopy in non-contact mode, Applied Surface Science, 140,.358 (1999).

I. Sokolov, G. Henderson, and F. Wicks, A Force limitation for successful observation of atomic defects: Defect trapping of the AFM tip, Atomic Force Microscopy/Scanning Tunneling Microscopy, 3, 87 (1999).

C. Rossiter and I.I. Suni, Atomic Force Microscopy Studies of Au Deposition from Aqueous HF onto Si(111), Surf. Sci., 430, L553 (1999).

R. Srinivasan and I.I. Suni, Kinetic Analysis of Au Deposition from Aqueous HF onto Si(111) by Surface Second Harmonic Generation, J. Electrochem. Soc. 146, 570 (1999).