THE UNIQUENESS OF PHYSICAL AND CHEMICAL NATURES OF GRAPHENE: THEIR COHERENCE AND CONFLICTS Статья Sheka E.F. International Journal of Quantum Chemistry. John Wiley and Sons Inc.. Том 114. 2014. С. 1079-1095
NEUTRON SCATTERING STUDY OF REDUCED GRAPHENE OXIDE OF NATURAL ORIGIN Статья Sheka E.F., Natkaniec I., Rozhkova N.N., Holderna-Natkaniec K. JETP Letters. Том 99. 2014. С. 650-655
ШУНГИТ - ПРИРОДНАЯ КЛАДОВАЯ НАНОРАЗМЕРНОГО ВОССТАНОВЛЕННОГО ОКСИДА ГРАФЕНА Статья ШЕКА Е.Ф., РОЖКОВА Н.Н. НАУЧНАЯ СЕССИЯ НИЯУ МИФИ-2014. Национальный исследовательский ядерный университет "МИФИ". 2014. 230a с.
SHUNGITE AS THE NATURAL PANTRY OF NANOSCALE REDUCED GRAPHENE OXIDE Статья Sheka E.F., Rozhkova N.N. International Journal of Smart and Nano Materials. Taylor and Francis Ltd.. Том 5. 2014. С. 1-16
FRACTALS OF GRAPHENE QUANTUM DOTS IN PHOTOLUMINESCENCE OF SHUNGITE Статья Razbirin B.S., Rozhkova N.N., Sheka E.F., Nelson D.K., Starukhin A.N. Journal of Experimental and Theoretical Physics. Том 118. 2014. С. 735-746
SPECTRAL PROPERTIES OF SHUNGITE QUANTUM DOTS Статья Razbirin B.S., Rozhkova N.N., Sheka E.F., Nelson D.K., Starukhin A.N., Goryunov A.S. NANOSYSTEMS-PHYSICS CHEMISTRY MATHEMATICS. ST PETERSBURG NATL RESEARCH UNIV INFORMATION TECHNOLOGIES, MECH & OPTICS. Том 5. 2014. С. 217-233
NANOSCALE REDUCED-GRAPHENE-OXIDE ORIGIN OF SHUNGITE IN LIGHT OF NEUTRON SCATTERING Статья Sheka E.F., Rozhkova N.N., Holderna-Natkaniec K., I Natkaniec NANOSYSTEMS-PHYSICS CHEMISTRY MATHEMATICS. ST PETERSBURG NATL RESEARCH UNIV INFORMATION TECHNOLOGIES, MECH & OPTICS. Том 5. 2014. С. 659-676
WHY SP<SUP>2</SUP>-LIKE NANOSILICONS SHOULD NOT FORM: INSIGHT FROM QUANTUM CHEMISTRY Статья Sheka E.F. International Journal of Quantum Chemistry. John Wiley and Sons Inc.. Том 113. 2013. С. 612-618
GRAPHENE, SILICENE, AND FORGOTTEN LESSONS OF THE SURFACE PHYSICS Статья Sheka E.F. CriMiCo 2013 - 2013 23rd International Crimean Conference Microwave and Telecommunication Technology, Conference Proceedings. 2013. С. 792-793
TOPOCHEMISTRY OF SPATIALLY EXTENDED <I>SP <SUP>2</SUP></I> NANOCARBONS: FULLERENES, NANOTUBES, AND GRAPHENE Статья Sheka E.F. Radioelektronika, Nanosistemy, Informacionnye Tehnologii. Russian Academy of Natural Science. Том 5. 2013. С. 15-44
GRAPHENE IN LIGHT OF MOLECULAR THEORY Статья Sheka E.F. Radioelektronika, Nanosistemy, Informacionnye Tehnologii. Russian Academy of Natural Science. Том 5. 2013. С. 126-142
WHY SP2-LIKE NANOSILICONS SHOULD NOT FORM: INSIGHT FROM QUANTUM CHEMISTRY Статья Sheka E.F. International Journal of Quantum Chemistry. John Wiley and Sons Inc.. Том 113. 2013. С. 612-618
GRAPHENE: UNIQUE MATERIAL OR VAIN EXPECTATIONS? Статья Sheka E.F. CriMiCo 2013 - 2013 23rd International Crimean Conference Microwave and Telecommunication Technology, Conference Proceedings. 2013. С. 2-3
TOPOLOGICAL MECHANOCHEMISTRY OF GRAPHENE Статья Sheka E.F., Popova V.A., Popova N.A. ADVANCES IN QUANTUM METHODS AND APPLICATIONS IN CHEMISTRY, PHYSICS, AND BIOLOGY. SPRINGER-VERLAG BERLIN. Том 27. 2013. С. 285-301
MOLECULAR THEORY OF GRAPHENE OXIDE Статья Sheka E.F., Popova N.A. Physical Chemistry Chemical Physics. Том 15. 2013. С. 13304-13322
MOLECULAR THEORY OF GRAPHENE Статья Sheka E.F. ADVANCES IN QUANTUM METHODS AND APPLICATIONS IN CHEMISTRY, PHYSICS, AND BIOLOGY. SPRINGER-VERLAG BERLIN. Том 27. 2013. С. 249-284
ВЛИЯНИЕ ХИМИЧЕСКОЙ МОДИФИКАЦИИ КРАЕВЫХ АТОМОВ ГРАФЕНА НАМЕХАНОХИМИЧЕСКУЮ РЕАКЦИЮ ЕГО РАЗРУШЕНИЯ Статья Шека Е.Ф., Попова В.А., Попова Н.А. Фазовые превращения и прочность кристаллов. Издательство Черноголовка. 2012. 152 с.
REACTION BARRIERS AND DEFORMATION ENERGIES OF C <SUB>60</SUB>-BASED COMPOSITES. III. C60-GRAPHENE NANOBUDS Статья SHEKA E.F., SHAYMARDANOVA L.Kh. Наноструктуры. Математическая физика и моделирование. Европейский центр по качеству. Том 6. 2012. С. 99-110
COMPUTATIONAL SYNTHESIS OF C<SUB>60</SUB> CYANO- AND AZOPOLYDERIVATIVES Статья Sheka E.F. Journal of Molecular Modeling. Том 18. 2012. С. 1409-1420
COMPUTATIONAL SYNTHESIS OF C 60 CYANO- AND AZOPOLYDERIVATIVES Статья Sheka E.F. Journal of Molecular Modeling. Том 18. 2012. С. 1409-1420
COMPUTATIONAL STRATEGY FOR GRAPHENE: INSIGHT FROM ODD ELECTRONS CORRELATION Статья Sheka E.F. International Journal of Quantum Chemistry. John Wiley and Sons Inc.. Том 112. 2012. С. 3076-3090
REACTION BARRIERS AND DEFORMATION ENERGIES OF C <SUB>60</SUB>-BASED COMPOSITES. II. C60-CARBON NANOBUDS Статья SHEKA E.F., SHAYMARDANOVA L.Kh. Наноструктуры. Математическая физика и моделирование. Европейский центр по качеству. Том 6. 2012. С. 89-98
REACTION BARRIERS AND DEFORMATION ENERGIES OF C <SUB>60</SUB>-BASED COMPOSITES. I. C <SUB>60</SUB> DIMERS AND OLIGOMERS Статья SHEKA E.F., SHAYMARDANOVA L.Kh. Наноструктуры. Математическая физика и моделирование. Европейский центр по качеству. Том 6. 2012. С. 79-88
ODD-ELECTRON MOLECULAR THEORY OF GRAPHENE HYDROGENATION Статья Sheka E.F., Popova N.A. Journal of Molecular Modeling. Том 18. 2012. С. 3751-3768
NANOPHOTONICS OF FULLERENE. 1. CHEMISTRY AND MEDICINE Статья Sheka E.F. Nanoscience and Nanotechnology Letters. Том 3. 2011. С. 28-33