Шека Е.Ф.

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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

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

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

MOLECULAR THEORY OF GRAPHENE OXIDE

Статья

Sheka E.F., Popova N.A.

Physical Chemistry Chemical Physics. Том 15. 2013. С. 13304-13322

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

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, 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 SP 2 NANOCARBONS: FULLERENES, NANOTUBES, AND GRAPHENE

Статья

Sheka E.F.

Radioelektronika, Nanosistemy, Informacionnye Tehnologii. Russian Academy of Natural Science. Том 5. 2013. С. 15-44

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 IN LIGHT OF MOLECULAR THEORY

Статья

Sheka E.F.

Radioelektronika, Nanosistemy, Informacionnye Tehnologii. Russian Academy of Natural Science. Том 5. 2013. С. 126-142

REACTION BARRIERS AND DEFORMATION ENERGIES OF C 60-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

COMPUTATIONAL SYNTHESIS OF C 60 CYANO- AND AZOPOLYDERIVATIVES

Статья

Sheka E.F.

Journal of Molecular Modeling. Том 18. 2012. С. 1409-1420

COMPUTATIONAL SYNTHESIS OF C60 CYANO- AND AZOPOLYDERIVATIVES

Статья

Sheka E.F.

Journal of Molecular Modeling. Том 18. 2012. С. 1409-1420

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.

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 60-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

REACTION BARRIERS AND DEFORMATION ENERGIES OF C 60-BASED COMPOSITES. I. C 60 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

C60-BASED COMPOSITES IN VIEW OF TOPOCHEMICAL REACTIONS

Статья

Sheka E.F., Shaymardanova L.K.

Journal of Materials Chemistry. Том 21. 2011. С. 17128-17146

NANOPHOTONICS OF FULLERENE. 2. LINEAR AND NON-LINEAR OPTICS

Статья

Sheka E.F.

Nanoscience and Nanotechnology Letters. Том 3. 2011. С. 34-40

HOW GRAPHENE IS TRANSFORMED INTO REGULAR GRAPHANE STRUCTURE

Статья

SHEKA E.F., POPOVA N.A.

Наноструктуры. Математическая физика и моделирование. Европейский центр по качеству. Том 5. 2011. С. 69-88

C60-BASED COMPOSITES IN VIEW OF TOPOCHEMICAL REACTIONS

Статья

Sheka E.F., Shaymardanova L.Kh.

Journal of Materials Chemistry. Том 21. 2011. С. 17128-17146

CONTINUOUS SYMMETRY OF C60 FULLERENE AND ITS DERIVATIVES

Статья

Sheka E.F., Razbirin B.S., Nelson D.K.

Journal of Physical Chemistry A. American Chemical Society. Том 115. 2011. С. 3480-3490

A TRICOTAGE-LIKE FAILURE OF NANOGRAPHENE

Статья

Sheka E.F., Popova N.A., Popova V.A., Nikitina E.A., Shaymardanova L.H.

Journal of Molecular Modeling. Том 17. 2011. С. 1121-1131

MECHANOCHEMICAL REACTION IN GRAPHANE UNDER UNIAXIAL TENSION

Статья

Popova N.A., Sheka E.F.

Journal of Physical Chemistry C. Том 115. 2011. С. 23745-23754

Страница 3 из 9. Записи с 51 по 75 из 207

Другие авторы

Маткевич Е.И.

Записей: 1

Fain V.Ya.

Записей: 52

Список записей

NANOSCALE REDUCED-GRAPHENE-OXIDE ORIGIN OF SHUNGITE IN LIGHT OF NEUTRON SCATTERING

MOLECULAR THEORY OF GRAPHENE

GRAPHENE: UNIQUE MATERIAL OR VAIN EXPECTATIONS?

MOLECULAR THEORY OF GRAPHENE OXIDE

TOPOLOGICAL MECHANOCHEMISTRY OF GRAPHENE

WHY SP<SUP>2</SUP>-LIKE NANOSILICONS SHOULD NOT FORM: INSIGHT FROM QUANTUM CHEMISTRY

GRAPHENE, SILICENE, AND FORGOTTEN LESSONS OF THE SURFACE PHYSICS

TOPOCHEMISTRY OF SPATIALLY EXTENDED <I>SP <SUP>2</SUP></I> NANOCARBONS: FULLERENES, NANOTUBES, AND GRAPHENE

WHY SP2-LIKE NANOSILICONS SHOULD NOT FORM: INSIGHT FROM QUANTUM CHEMISTRY

GRAPHENE IN LIGHT OF MOLECULAR THEORY

REACTION BARRIERS AND DEFORMATION ENERGIES OF C <SUB>60</SUB>-BASED COMPOSITES. II. C60-CARBON NANOBUDS

COMPUTATIONAL SYNTHESIS OF C 60 CYANO- AND AZOPOLYDERIVATIVES

COMPUTATIONAL SYNTHESIS OF C<SUB>60</SUB> CYANO- AND AZOPOLYDERIVATIVES

ВЛИЯНИЕ ХИМИЧЕСКОЙ МОДИФИКАЦИИ КРАЕВЫХ АТОМОВ ГРАФЕНА НАМЕХАНОХИМИЧЕСКУЮ РЕАКЦИЮ ЕГО РАЗРУШЕНИЯ

COMPUTATIONAL STRATEGY FOR GRAPHENE: INSIGHT FROM ODD ELECTRONS CORRELATION

REACTION BARRIERS AND DEFORMATION ENERGIES OF C <SUB>60</SUB>-BASED COMPOSITES. III. C60-GRAPHENE NANOBUDS

REACTION BARRIERS AND DEFORMATION ENERGIES OF C <SUB>60</SUB>-BASED COMPOSITES. I. C <SUB>60</SUB> DIMERS AND OLIGOMERS

ODD-ELECTRON MOLECULAR THEORY OF GRAPHENE HYDROGENATION

C<SUB>60</SUB>-BASED COMPOSITES IN VIEW OF TOPOCHEMICAL REACTIONS

NANOPHOTONICS OF FULLERENE. 2. LINEAR AND NON-LINEAR OPTICS

HOW GRAPHENE IS TRANSFORMED INTO REGULAR GRAPHANE STRUCTURE

C60-BASED COMPOSITES IN VIEW OF TOPOCHEMICAL REACTIONS

CONTINUOUS SYMMETRY OF C60 FULLERENE AND ITS DERIVATIVES

A TRICOTAGE-LIKE FAILURE OF NANOGRAPHENE

MECHANOCHEMICAL REACTION IN GRAPHANE UNDER UNIAXIAL TENSION

Другие авторы

Маткевич Е.И.

Fain V.Ya.