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C 21
Carbonaceous Composite Materials. / Sharma, Gaurav., Kumar, Amit. - Millersville, PA : : Materials Research Forum LLC,, 2018. - 1 online resource (344 pages). - (Materials Research Foundations Ser. ; ; v. 42). - URL: https://library.dvfu.ru/lib/document/SK_ELIB/8BBA33CA-3AA0-4D48-800B-1F5F3C0007A7. - ISBN 1945291974. - ISBN 9781945291975 (electronic bk.)
2. Lithium-ion batteries. Online resource; title from PDF title page (EBSCO, viewed January 4, 2019).
Параллельные издания: Print version: : Sharma, Gaurav. Carbonaceous Composite Materials. - Millersville, PA : Materials Research Forum LLC, ©2018
Содержание:
Intro; Table of Contents; Preface; 1; Graphene and Graphene/TiO2 Nanocomposites for Renewable Dye Sensitized Solar Cells; 1. Introduction; 2. Historical overview of DSSCs; 2.1 Material Selection for DSSCs; 3. Reduced graphene oxide (rGO); 3.1 Electronic properties of rGO based bilayer systems; 3.2 Thermal conductivity of rGO; 3.3 Optical properties of rGO; 3.4 Electrochemical performance of rGO; 4. TiO2-rGO NC material; 4.1 TiO2-rGO NC material's properties; 4.2 Formation mechanism of TiO2-rGO NC material; 4.4 Preparation of TiO2-rGO NC; 4.4.1 Sol-Gel synthesis.
4.4.2 Solution mixing synthesis4.4.3 In-Situ growth synthesis; 5. Conclusion; 6. Acknowledgements; References; 2; Carbon Based Nanomaterials for Energy Storage; 1. Introduction; 2. Carbonaceous nanomaterials; 2.1 Origin; 2.2 Fullerenes; 2.3 Carbon nanotubes; 2.4 Graphene; 2.5 Nitrogen doped carbon nanomaterial; 2.6 Carbon gels; 3. Energy storage system; 3.1 Electrochemical storage system; 3.1.1 Binder free electrodes; 3.1.2 Super capacitors; 3.1.3 Lithium-ion batteries; 3.2 Nanomaterials as electrodes; 3.3 Hydrogen storage system; 3.4 Thermal energy storage; 3.5 Nanomaterials as Fuel cells.
3.6 Capture of carbondioxide and methane4. Conclusion and future development; References; 3; Molecular Dynamics Simulation of Capped Single Walled Carbon Nanotubes and their Composites; 1. Introduction; 2. Materials and method; 2.1 CNT; 2.2 Polymer; 2.3 Simulation strategy; 3. Total potential energies and inter-atomic forces; 4. Stiffness of SWCNTs; 4.1 Modeling of SWCNTs; 4.2 Geometry optimization; 4.3 Dynamics; 4.4 Mechanical properties; 5. Results and discussion; 6. Polymer/CNT Composites; 6.1 Molecular model of polymer matrix; 6.2 Elastic moduli of polymer; 6.3 PMMA/CNT composite system.
7. ConclusionReferences; 4; Fullerenes and its Composites; 1. Introduction; 2. Fullerenes; 2.1 Types of fullerenes; 2.1.1 Nanotubes; 2.1.2 Mega tubes; 2.1.3 Bucky ball clusters; 2.1.4 Polymers; 2.1.5 Nano onion; 2.1.6 Linked "ball and chain" dimers; 3. Structure of fullerene; 3.1 Bucky ball structure; 3.2 Cylindrical structure; 4. Synthesis; 4.1 Arc discharge vaporization of graphite; 4.2 Low -- pressure Benzene/Oxygen diffusion flame method; 4.3 Combustion process; 4.4 Laser ablation; 4.5 Chemical vapor deposition (CVD); 4.6 Chemical synthesis of fullerene; 5. Properties.
5.1 Physical properties5.2 Size; 5.3 Solubility; 5.4 Chemical properties; 5.5 Optical properties; 5.6 Mechanical properties; 5.7 Vibrational properties; 5.8 Electrical properties; 5.9 Magnetic properties; 5.10 Lubricating properties; 6. Composites of fullerenes; 7. Applications; 7.1 Fullerenes as wires; 7.2 Medicinal applications; 7.3 Fullerenes in organo photovoltaics; 7.4 Fullerenes as hydrogen gas storage; 7.5 Fullerenes as sensors; Conclusion; References; 5; Graphene Oxide Composites and their Potential Applications; 1. Supercapacitors or electrochemical capacitors.
~РУБ DDC 620.193
Рубрики: Carbon composites.
TECHNOLOGY & ENGINEERING / Engineering (General)
TECHNOLOGY & ENGINEERING / Reference.
Аннотация: This book reports current progress in the development, design and utilization of carbonaceous materials in such diverse areas as electronics, medical implants, drug delivery, clean energy, biofuel and pollution control. Keywords: Carbonaceous Materials, Carbons, Graphite, Biochar, Fullerenes, Graphene, Carbon Foam, Carbon Nanotubes, Graphene Oxide, Graphitic Carbon Nitride, Carbon Aerogels, Carbon Matrix Composites, Organic-inorganic Hybrid Materials, Building Materials, Carbon-based Composites, Carbon Matrix Polymer Composites, Conducting Polymers, Clean Energy, Energy Storage, Electrode Mate.
Доп.точки доступа:
Sharma, Gaurav.
Kumar, Amit.
C 21
Carbonaceous Composite Materials. / Sharma, Gaurav., Kumar, Amit. - Millersville, PA : : Materials Research Forum LLC,, 2018. - 1 online resource (344 pages). - (Materials Research Foundations Ser. ; ; v. 42). - URL: https://library.dvfu.ru/lib/document/SK_ELIB/8BBA33CA-3AA0-4D48-800B-1F5F3C0007A7. - ISBN 1945291974. - ISBN 9781945291975 (electronic bk.)
2. Lithium-ion batteries. Online resource; title from PDF title page (EBSCO, viewed January 4, 2019).
Параллельные издания: Print version: : Sharma, Gaurav. Carbonaceous Composite Materials. - Millersville, PA : Materials Research Forum LLC, ©2018
Содержание:
Intro; Table of Contents; Preface; 1; Graphene and Graphene/TiO2 Nanocomposites for Renewable Dye Sensitized Solar Cells; 1. Introduction; 2. Historical overview of DSSCs; 2.1 Material Selection for DSSCs; 3. Reduced graphene oxide (rGO); 3.1 Electronic properties of rGO based bilayer systems; 3.2 Thermal conductivity of rGO; 3.3 Optical properties of rGO; 3.4 Electrochemical performance of rGO; 4. TiO2-rGO NC material; 4.1 TiO2-rGO NC material's properties; 4.2 Formation mechanism of TiO2-rGO NC material; 4.4 Preparation of TiO2-rGO NC; 4.4.1 Sol-Gel synthesis.
4.4.2 Solution mixing synthesis4.4.3 In-Situ growth synthesis; 5. Conclusion; 6. Acknowledgements; References; 2; Carbon Based Nanomaterials for Energy Storage; 1. Introduction; 2. Carbonaceous nanomaterials; 2.1 Origin; 2.2 Fullerenes; 2.3 Carbon nanotubes; 2.4 Graphene; 2.5 Nitrogen doped carbon nanomaterial; 2.6 Carbon gels; 3. Energy storage system; 3.1 Electrochemical storage system; 3.1.1 Binder free electrodes; 3.1.2 Super capacitors; 3.1.3 Lithium-ion batteries; 3.2 Nanomaterials as electrodes; 3.3 Hydrogen storage system; 3.4 Thermal energy storage; 3.5 Nanomaterials as Fuel cells.
3.6 Capture of carbondioxide and methane4. Conclusion and future development; References; 3; Molecular Dynamics Simulation of Capped Single Walled Carbon Nanotubes and their Composites; 1. Introduction; 2. Materials and method; 2.1 CNT; 2.2 Polymer; 2.3 Simulation strategy; 3. Total potential energies and inter-atomic forces; 4. Stiffness of SWCNTs; 4.1 Modeling of SWCNTs; 4.2 Geometry optimization; 4.3 Dynamics; 4.4 Mechanical properties; 5. Results and discussion; 6. Polymer/CNT Composites; 6.1 Molecular model of polymer matrix; 6.2 Elastic moduli of polymer; 6.3 PMMA/CNT composite system.
7. ConclusionReferences; 4; Fullerenes and its Composites; 1. Introduction; 2. Fullerenes; 2.1 Types of fullerenes; 2.1.1 Nanotubes; 2.1.2 Mega tubes; 2.1.3 Bucky ball clusters; 2.1.4 Polymers; 2.1.5 Nano onion; 2.1.6 Linked "ball and chain" dimers; 3. Structure of fullerene; 3.1 Bucky ball structure; 3.2 Cylindrical structure; 4. Synthesis; 4.1 Arc discharge vaporization of graphite; 4.2 Low -- pressure Benzene/Oxygen diffusion flame method; 4.3 Combustion process; 4.4 Laser ablation; 4.5 Chemical vapor deposition (CVD); 4.6 Chemical synthesis of fullerene; 5. Properties.
5.1 Physical properties5.2 Size; 5.3 Solubility; 5.4 Chemical properties; 5.5 Optical properties; 5.6 Mechanical properties; 5.7 Vibrational properties; 5.8 Electrical properties; 5.9 Magnetic properties; 5.10 Lubricating properties; 6. Composites of fullerenes; 7. Applications; 7.1 Fullerenes as wires; 7.2 Medicinal applications; 7.3 Fullerenes in organo photovoltaics; 7.4 Fullerenes as hydrogen gas storage; 7.5 Fullerenes as sensors; Conclusion; References; 5; Graphene Oxide Composites and their Potential Applications; 1. Supercapacitors or electrochemical capacitors.
Рубрики: Carbon composites.
TECHNOLOGY & ENGINEERING / Engineering (General)
TECHNOLOGY & ENGINEERING / Reference.
Аннотация: This book reports current progress in the development, design and utilization of carbonaceous materials in such diverse areas as electronics, medical implants, drug delivery, clean energy, biofuel and pollution control. Keywords: Carbonaceous Materials, Carbons, Graphite, Biochar, Fullerenes, Graphene, Carbon Foam, Carbon Nanotubes, Graphene Oxide, Graphitic Carbon Nitride, Carbon Aerogels, Carbon Matrix Composites, Organic-inorganic Hybrid Materials, Building Materials, Carbon-based Composites, Carbon Matrix Polymer Composites, Conducting Polymers, Clean Energy, Energy Storage, Electrode Mate.
Доп.точки доступа:
Sharma, Gaurav.
Kumar, Amit.
2.
Подробнее
C 51
Chemistry of carbon nanostructures / / edited by Klaus Müllen, Xinliang Feng. - Berlin ; ; Boston : : De Gruyter,, ©2017. - 1 online resource (xi, 319 pages). - Includes bibliographical references and index. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/0AD09861-9D62-4862-84DD-A68D5D240945. - ISBN 3110284642 (electronic bk.). - ISBN 9783110284645 (electronic bk.). - ISBN 9783110381627 (electronic bk.). - ISBN 3110381621 (electronic bk.). - ISBN 9783110284652 (electronic bk.). - ISBN 3110284650 (electronic bk.)
Print version record.
Параллельные издания: Print version: : Chemistry of carbon nanostructures. - Berlin ; Boston : Walter de Gruyter GmbH, [2017]. - ISBN 9783110284508
~РУБ DDC 546/.68142
Рубрики: Carbon.
Carbon composites.
Nanostructured materials.
SCIENCE--Chemistry--Inorganic.
Carbon.
Carbon composites.
Nanostructured materials.
Аннотация: "Carbon Materials such as nanoparticles, fibres, adamantan- and graphene like structures are widely used in science and engineering. Applications range from energy and gas storage, to electronics and optical applications. The authors contributing to this book, worldwide known experts on graphene and carbon structures, discuss chemical aspects of carbon structures, their synthesis, functionallization and design strategies for defined applications"--
Доп.точки доступа:
Müllen, K., (Klaus), \editor.\
Feng, Xinliang, \editor.\
C 51
Chemistry of carbon nanostructures / / edited by Klaus Müllen, Xinliang Feng. - Berlin ; ; Boston : : De Gruyter,, ©2017. - 1 online resource (xi, 319 pages). - Includes bibliographical references and index. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/0AD09861-9D62-4862-84DD-A68D5D240945. - ISBN 3110284642 (electronic bk.). - ISBN 9783110284645 (electronic bk.). - ISBN 9783110381627 (electronic bk.). - ISBN 3110381621 (electronic bk.). - ISBN 9783110284652 (electronic bk.). - ISBN 3110284650 (electronic bk.)
Print version record.
Параллельные издания: Print version: : Chemistry of carbon nanostructures. - Berlin ; Boston : Walter de Gruyter GmbH, [2017]. - ISBN 9783110284508
Рубрики: Carbon.
Carbon composites.
Nanostructured materials.
SCIENCE--Chemistry--Inorganic.
Carbon.
Carbon composites.
Nanostructured materials.
Аннотация: "Carbon Materials such as nanoparticles, fibres, adamantan- and graphene like structures are widely used in science and engineering. Applications range from energy and gas storage, to electronics and optical applications. The authors contributing to this book, worldwide known experts on graphene and carbon structures, discuss chemical aspects of carbon structures, their synthesis, functionallization and design strategies for defined applications"--
Доп.точки доступа:
Müllen, K., (Klaus), \editor.\
Feng, Xinliang, \editor.\
Страница 1, Результатов: 2