Overview

This book focuses on inorganic nanosheets, including various oxides, chalcogenides, and graphenes, that provide two-dimensional (2D) media to develop materials chemistry in broad fields such as electronics, photonics, environmental science, and biology. The application area of nanosheets and nanosheet-based materials covers the analytical, photochemical, optical, biological, energetic, and environmental research fields. All of these applications come from the low dimensionality of the nanosheets, which anisotropically regulate structures of solids, microspaces, and fluids. Understanding nanosheets from chemical, structural, and application aspects in relation to their ""fully nanoscopic"" characters will help materials scientists to develop novel advanced materials. This is the first book that accurately and concisely summarizes this field including exfoliation and intercalation chemistries of layered crystals. The book provides perspective on the materials chemistry ofinorganic nanosheets. The first section describes fundamental aspects of nanosheets common to diverse applications: how unique structures and properties are obtained from nanosheets based on low dimensionality. The second section presents state-of-the-art descriptions of how the 2D nature of nanosheets is utilized in each application of the materials that are developed. 

Full Product Details

Author:   Teruyuki Nakato ,  Jun Kawamata ,  Shinsuke Takagi
Publisher:   Springer Verlag, Japan
Imprint:   Springer Verlag, Japan
Edition:   Softcover reprint of the original 1st ed. 2017
Weight:   8.248kg
ISBN:  

9784431568032

ISBN 10:   4431568034
Pages:   542
Publication Date:   25 July 2018
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
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Table of Contents

Materials Chemistry of Inorganic Nanosheets: Overview and History.- Clay Minerals as Natural Nanosheets.- Synthetic Nanosheets from Ion-Exchangeable Layered Solids.- Graphene: Synthesis and Functionalization.- Chalcogenide Nanosheets: Optical Signatures of Many-body Effects and Electronic Band Structure.- Inorganic–organic interactions.- Hybridization with polymers.- Colloidal Nanosheets.- Adsorbents Derived from Layered Solids.- Sensors.- Energy Storage Systems.- Graphene Oxide Based Electrochemical System for Energy Generation.- Nanosheet-Based Electronics.- Photoenergy Conversion.- Photofunctional Nanosheet-based Hybrids.- Efficient Photocatalytic Systems Integrated with Layered Materials Promoters.- Semiconductor Nanosheets.- Hybrids with Functional Dyes.- Optical Materials.- Chirality and its Application.- Applications of Nanoclay-containing Polymer Nanocomposites.- Biological Materials.

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Author Information

- Teruyuki Nakato Vice-chairman of Forum on Low-dimensional Photo-functional Materials, Chemical Society of Japan Councilor of Clay Science Society of Japan Editorial Board Member of Clay Science, Clay Science Society of Japan National Advisory Board Member of International Symposium on Zeolite and Microporous Crystals, Japan Association of Zeolites - Jun Kawamata President of Forum on Low-dimensional Photo-functional Materials, Chemical Society of Japan Councilor of Clay Science Society of Japan Editorial Board Member of Clay Science, Clay Science Society of Japan Corresponding Symposium Organizer, Pacifichem 2015 Vice-chairman of Forum on Bio-Optics - Shinsuke Takagi Vice-chairman of Forum on Low-dimensional Photo-functional Materials, Chemical Society of Japan Advisory Editorial Board of Langmuir Editor in Chief of Clay Science, Clay Science Society of Japan

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