QUANTUM-CHEMICAL STUDY OF THE INTERFACE FORMED BY CARBOXYLATED SPECIES ON TIO2 NANOPARTICLES. 1. NANOPARTICLE SURFACE Article Sheka E.F., Nikitina E.A., Zayets V.A., Ginzburg I.Y., Schoonman J. Physics of Low-Dimensional Structures. Vol. 1. 2006. P. 81-99
QUANTUM-CHEMICAL STUDY OF THE INTERFACE FORMED BY CARBOXYLATED SPECIES AND TIO2 NANOPARTICLES. 2. CARBOXYLIC SPECIES ADSORPTION Article Sheka E.F., Nikitina E.A., Zayets V.A., Ginzburg I.Y., Schoonman J. Physics of Low-Dimensional Structures. Vol. 1. 2006. P. 99-112
QUANTUM-CHEMICAL STUDY OF THE INTERFACE FORMED BY CARBOXYLIC SPECIES ON TIO2 NANOPARTICLES. 1. NANOPARTICLE SURFACE Article Sheka E.F., Nikitina E.A., Ginzburg I.Ya., Schoonman J., Zayets V.A. Journal of Nanoparticle Research. Vol. 7. 2005. P. 171-186
HIGHSPIN MOLECULAR MAGNETISM OF SILICON SURFACES Article Sheka E.F., Nikitina E.A., Zayets V.A. Surface Science. Vol. 532-535. 2003. P. 754-758
HIGH-SPIN SILICON FULLERENE SI60 AND ITS OLIGOMERS Article Sheka E.F., Nikitina E.A., Zayets V.A., Ginzburg I.Ya. International Journal of Quantum Chemistry. John Wiley and Sons Inc.. Vol. 88. 2002. P. 441-448
COMPARATIVE STUDY OF THE SI(100) SURFACE RECONSTRUCTION UNDER SUCCESSIVE DEHYDROGENATION. I. SI(100)(1X1)-H SURFACE Article Nikitina E.A., Sheka E.F., Aono M. Physics of Low-Dimensional Structures. Vol. 2001. 2001. P. 31-56
FROM SILICON FULLERENES SI-60 TO NANOFIBERS Article Sheka E.F., Nikitina E.A. Doklady Chemistry. Vol. 378. 2001. P. 129-134
FULLERENE MODEL OF SILICON NANOFIBERS Article Sheka E.F., Nikitina E.A., Zaets V.A., Ginzburg I.Ya. JETP Letters. Vol. 74. 2001. P. 177-181
INS AND IR STUDIES OF INTERMOLECULAR INTERACTION AT THE SILICONE-FUMED SILICA INTERFACE. 2. FUMED SILICA Article Sheka E., Barthel H., Khavryutchenko V., Natkaniec I., Nikitina E., Weis J. Physics of Low-Dimensional Structures. Vol. 2000. 2000. P. 1-24
INS STUDY OF INTERMOLECULAR INTERACTION AT THE SILICONE-FUMED SILICA INTERFACE Article Sheka E., Natkaniec I., Khavryutchenko V., Nikitina E., Barthel H., Weis J. Physica B: Condensed Matter. Elsevier Science Publishers B.V., Amsterdam. Vol. 276-278. 2000. P. 244-246
INS AND IR STUDIES OF INTERMOLECULAR INTERACTION AT THE SILICONE-FUMED SILICA INTERFACE. 3. ADSORPTION COMPLEXES Article Sheka E., Barthel H., Khavryutchenko V., Natkaniec I., Nikitina E., Weis J. Physics of Low-Dimensional Structures. Vol. 2000. 2000. P. 25-50
INS AND IR STUDIES OF INTERMOLECULAR INTERACTION AT THE SILICONE-FUMED SILICA INTERFACE I. SILICONES Article Sheka E., Barthel H., Khavryutchenko V., Natkaniec I., Nikitina E., Weis J. Physics of Low-Dimensional Structures. Vol. 2000. 2000. P. 127-158
FROM MOLECULES TO PARTICLES: QUANTUM-CHEMICAL VIEW APPLIED TO FUMED SILICA Article Sheka E., Khavryutchenko V., Nikitina E. Journal of Nanoparticle Research. Vol. 1. 1999. P. 71-81
FUMED SILICA PARTICLES POLYDIMETHYLSILOXANE OLIGOMERS INTERFACE. 2. QUANTUM CHEMICAL MODELLING OF PARTICLE SURFACE. TETRAGONAL PACKING Article Khavryutchenko V.D., Nikitina E.A., Sheka E.F., Barthel W.H., Weis J. Physics of Low-Dimensional Structures. Vol. 1999. 1999. P. 1-24
INTERMOLECULAR INTERACTIONS OF POLYDIMETHYLSILOXANE OLIGOMERS WITH HYDROXYLATED AND SILYLATED FUMED SILICA Article Nikitina E., Khavryutchenko V., Sheka E., Barthel H., Weis J. Composite Interfaces. Vol. 6. 1999. P. 3-17