Materials science and engineering of carbon [recurso electrónico] / Michio Inagaki, Feiyu Kang.
Tipo de material: TextoDetalles de publicación: Waltham, MA : Butterworth-Heinemann, 2014Edición: 2nd edDescripción: 1 online resource (552 pages)Tipo de contenido: text Tipo de medio: computer Tipo de portador: online resourceISBN: 9780128011522; 0128011521; 012800858X; 9780128008584Tema(s): Materials | Carbon compounds | Engineering | Materials science | Materials | TECHNOLOGY & ENGINEERING -- Engineering (General) | TECHNOLOGY & ENGINEERING -- Reference | Carbon compounds | MaterialsGénero/Forma: Electronic books. | Electronic books.Formatos físicos adicionales: Print version:: Materials Science and Engineering of Carbon: Fundamentals.Clasificación CDD: 620.11 Clasificación LoC:TA403 | .I384 2014Recursos en línea: Libro electrónico ScienceDirectTipo de ítem | Biblioteca actual | Colección | Signatura | Copia número | Estado | Fecha de vencimiento | Código de barras |
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Libro Electrónico | Biblioteca Electrónica | Colección de Libros Electrónicos | TA403 .I384 2014 (Browse shelf(Abre debajo)) | 1 | No para préstamo | 379950-2001 |
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Print version record.
Front Cover; Materials Science and Engineering of Carbon; Copyright Page; Contents; Preface; Acknowledgments; 1 Introduction; 1.1 Carbon materials; 1.2 Short history of carbon materials; 1.3 Classic carbons, new carbons, and nanocarbons; 1.3.1 Classic carbons; 1.3.2 New carbons; 1.3.3 Nanocarbons; 1.4 Construction and purposes of the present book; References; 2 Fundamental Science of Carbon Materials; 2.1 Carbon families; 2.1.1 Carbon-carbon bonds; 2.1.2 Carbon families; 2.1.3 Structural relation to neighboring atoms; 2.2 Structure and texture of carbon materials; 2.2.1 Structure.
2.2.2 Structure development with heat treatment (carbonization and graphitization)2.2.3 Nanotexture; 2.2.4 Microtexture (agglomeration); 2.3 Carbonization (nanotexture development); 2.3.1 Formation processes of carbon materials; 2.3.2 Gas phase carbonization; a Carbon blacks; b Pyrolytic carbons; c Vapor-grown carbon fibers and nanofibers; d Carbon nanotubes; e Fullerenes; f Graphenes; 2.3.3 Solid phase carbonization; a Activated carbons; b Glass-like carbons; c Carbon fibers; d Carbon films derived from aromatic polyimides; 2.3.4 Liquid phase carbonization; a Mesophase in pitches.
B Mesophase spheresc Bulk mesophase; d Control of optical texture of bulk mesophase; e Fractionation of pitches; 2.4 Novel techniques for carbonization; 2.4.1 Template method; 2.4.2 Polymer blend method; 2.4.3 Electrospinning; 2.4.4 Pressure carbonization; 2.4.5 High-yield carbonization; 2.4.6 Low-temperature carbonization; 2.5 Graphitization (structure development); 2.5.1 Structure parameters; 2.5.2 Graphitization behavior; a Carbon materials with planar orientation; b Carbon materials with axial orientation; c Carbon materials with point orientation.
D Carbon materials with random orientation2.5.3 Relations among structure parameters; 2.5.4 Graphitization process; 2.5.5 Graphitizing and non-graphitizing carbons; 2.5.6 Heterogeneous graphitization (multiphase graphitization); 2.6 Acceleration of graphitization; 2.6.1 Catalytic graphitization; 2.6.2 Stress graphitization; 2.6.3 Graphitization of exfoliated carbon fibers; 2.7 Pore development in carbon materials; 2.7.1 Pores in carbon materials; 2.7.2 Identification of pores; a Scanning tunneling microscopy; b Transmission electron microscopy; c Gas adsorption; d Scanning electron microscopy.
E Optical microscopyf Liquid impregnation; 2.7.3 Pore development in carbon materials; a Development of extrinsic nano-sized pores in glass-like carbons; b Macropore development in exfoliated graphite; c Development of extrinsic pores in graphite intercalation compounds; 2.8 Introduction of foreign species; 2.8.1 Possibility to introduce foreign species into carbon materials; 2.8.2 Intercalation; a Characteristics of intercalation compounds; b Synthesis of intercalation compounds; 2.8.3 Substitution; a Substitution for carbon atoms; b Substitution of B; c Substitution of N; 2.8.4 Doping.
A Doping of boron and nitrogen.
Materials Science and Engineering of Carbon: Fundamentals provides a comprehensive introduction to carbon, the fourth most abundant element in the universe. The contents are organized into two main parts. Following a brief introduction on the history of carbon materials, Part 1 focuses on the fundamental science on the preparation and characterization of various carbon materials, and Part 2 concentrates on their engineering and applications, including hot areas like energy storage and environmental remediation. The book also includes up-to-date advanced information on such newer carbon-base.
Includes bibliographical references at the end of each chapters and index.
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