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The seventh and eighth volumes of Handbook of Carbon Nano Materials focus on novel properties and applications of nanocarbons, viz., graphene, nanotube and fullerene. The books provide a comprehensive overview of the author's work, and significant discoveries and pioneering contributions from other groups. Specific applications cover latest developments in graphene synthesis, CVD of carbon nanomaterials, multifunctional carbon nanostructures, chemical manipulation, energy conversion and storage, nanotube micellar surface chemistry, and biosensor development. This is a highly useful book for graduate students, as well as beginning and senior researchers.
This volume is a tribute to the career of Prof. Mildred Dresselhaus. It focuses on the optical properties and spectroscopy of single-wall carbon nanotubes. It contains chapters on diverse experimental and theoretical aspects of the field, written by internationally recognized experts. The volume serves as an important resource for researchers and students interested in carbon nanotubes.
The fifth and sixth volumes of the Handbook of Carbon Nano Materials focus on fundamental properties and key applications of graphene. Graphene, the thinnest known material made of a single atom thick sheet of carbon atoms arranged hexagonally, offers great opportunities for application development in nanotechnology. This handbook covers fundamental properties, characterization, chemical manipulation, and applications of graphene. Specific applications cover latest developments in chemical manipulation, thermodynamic characterization, energy conversion and storage, and biosensor development.
1. Functionalization of graphene / Nikolaos Karousis, Solon Economopoulos and Nikos Tagmatarchis -- 2. Advanced carbon materials for electrochemical energy conversion and storage / Junbo Hou [und weitere] -- 3. Carbon nanomaterial-based molecular architectures for light energy conversion / Taku Hasobe -- 4. Electrochemistry of carbon nanostructures: from pristine materials to functional devices / Matteo Iurlo [und weitere] -- 5. Fullerene-based self-assembled morphological materials / Yanfei Shen, Junko Aimi and Takashi Nakanishi -- 6. Hybrids involving fullerenes and carbon nanotubes / Maria Vizuete [und weitere] -- 7. Semiconductor carbon nanotube optics / Lisa J. Nogaj, Libai Huang and Todd D. Krauss -- 8. Near-field optics of SWNTs and FRET in their nanoscale complexes / Tetyana Ignatova, Andrei M. Nemilentsau and Slava V. Rotkin -- 9. Understanding the role of the metal catalyst in carbon nanotube growth: towards chiral-selective growth of single-walled carbon nanotubes / Wei-Hung Chiang and R. Mohan Sankaran -- 10. Stability computations for fullerenes and metallofullerenes / Zdenek Slanina [und weitere]
A hands on reference guide for scientists working in the fields of chemistry, physics, materials science, polymer science, solid-state physics, devices, nanotechnology or supramolecular science of carbon nanomaterials. In-depth and comprehensive coverage of topics combined with the perspectives for future research by the contributing authors. An invaluable reference source essential for both beginning and advanced researchers in the field.
Carbon Nanomaterials and their Nanocomposite-Based Chemiresistive Gas Sensors: Applications, Fabrication and Commercialization sets out how carbon nanomaterials based chemiresistive gas sensor are made, and their applications at lab and industrial levels. The book focuses on major advances in the field of chemiresistive gas sensors in recent years and their potential applications in environmental monitoring and healthcare. Carbon Nanomaterials and their Nanocomposite-Based Chemiresistive Gas Sensors: Applications, Fabrication and Commercialization provides systematic and effective guidelines to the researchers as well as learners about sensor, their fabrication and applications. Chemiresistive sensors are widely used in automation of numerous industrial processes as well as for everyday monitoring of various activities as public safety, engine performance, medical therapeutics, and in many other situations hence the book will catch the attention of readers and motivate them for advanced research for the development of smart and efficient gas sensors. With full coverage of the state of the art in this active research field, the book will appeal to researchers in a broad range of disciplines, including nanotechnology, engineering, materials science, chemistry and physics. Offers a one-stop resource, bringing together information currently scattered over journal papers, industrial/lab outcomes and project reports Presents information about the properties, synthesis of nanomaterials, their device fabrication and applications as sensing materials Combining fundamental, experimental and theoretical knowledge with industrial needs and engineering design methods
Annotation. A hands on reference guide for scientists working in the fields of chemistry, physics, materials science, polymer science, solid-state physics, devices, nanotechnology or supramolecular science of carbon nanomaterials. In-depth and comprehensive coverage of topics combined with the perspectives for future research by the contributing authors. An invaluable reference source essential for both beginning and advanced researchers in the field.
Handbook of Carbon-Based Nanomaterials provides a comprehensive overview of carbon-based nanomaterials and recent advances in these specialized materials. This book opens with a brief introduction to carbon, including the different forms of carbon and their range of uses. Each chapter systematically covers a different type of carbon-based nanomaterial, including its individual characteristics, synthesis techniques and applications in industry, biomedicine and research. This book offers a broad handbook on carbon-based nanomaterials, detailing the materials aspects, applications and recent advances of this expansive topic. With its global team of contributing authors, Handbook of Carbon-Based Nanomaterials collates specific technical expertise from around the world, for each type of carbon-based nanomaterial. Due to the broad nature of the coverage, this book will be useful to an interdisciplinary readership, including researchers in academia and industry in the fields of materials science, engineering, chemistry, energy and biomedical engineering. Covers a range of carbon-based nanomaterials, including graphene, fullerenes and much more Describes key properties, synthesis techniques and characterization of each carbon-based nanomaterial Discusses a range of applications of carbon-based nanomaterials, from biomedicine to energy applications
The Springer Handbook of Nanomaterials covers the description of materials which have dimension on the "nanoscale". The description of the nanomaterials in this Handbook follows the thorough but concise explanation of the synergy of structure, properties, processing and applications of the given material. The Handbook mainly describes materials in their solid phase; exceptions might be e.g. small sized liquid aerosols or gas bubbles in liquids. The materials are organized by their dimensionality. Zero dimensional structures collect clusters, nanoparticles and quantum dots, one dimensional are nanowires and nanotubes, while two dimensional are represented by thin films and surfaces. The chapters in these larger topics are written on a specific materials and dimensionality combination, e.g. ceramic nanowires. Chapters are authored by well-established and well-known scientists of the particular field. They have measurable part of publications and an important role in establishing new knowledge of the particular field.
This two-volume sourcebook is the most comprehensive reference for carbon nanomaterials, bringing together the physics, chemistry, materials science, molecular biology and engineering of all carbon nanomaterial types that are important in electronics, energy, biomedical and environmental applications. Each chapter addresses the fundamental properties, growth mechanisms, processing and functionalization of a particular nanocarbon. The first volume covers graphene, fullerenes, nanotubes and nanodiamonds. The second volume focuses on nanoparticles, nanocapsules, nanofibers, nanoporous structures and nanocomposites.