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Solid-state chemistry continues to span and to spawn multiple materials research areas, attracting investigators from chemistry, condensed-matter physics, materials science and engineering, ceramics, chemical engineering, and mineralogy/geology, to name a few. The common challenge is to understand and to predict structures and properties of new materials. As with earlier volumes in this series from the Materials Research Society, the presentations here represent interdisciplinary research from around the world and explore not only recent advances in the solid-state chemistry of inorganic materials, but also their impact on commercial applications. The book covers a broad range of topics, including synthesis and characterization of novel functional materials; design and fabrication of nanostructures and nanomaterials; crystal and structural chemistry; catalysis; gas separation and storage; and magnetic and optical applications. Both theoretical and computational studies of solid-state inorganic materials are featured. Joint presentations with solid-state ionics are also particularly fruitful.
Gathering leading specialists in the field of structure prediction, this book provides a unique view of this complex and rapidly developing field, reflecting the numerous viewpoints of the different authors. A summary of the major achievements over the last few years and of the challenges still remaining makes this monograph very timely.
Interest in hybrid materials has accelerated recently, in particular because tailoring materials properties through organization of organic/inorganic composites at nanometer length scales is now an important focus for numerous diverse research domains. This book's objective here is to create a communal forum for researchers involved in all areas of organic/inorganic hybrid materials to share perspectives, to learn about leading-edge science and engineering occurring around the world, and to develop new ideas. The book is divided into focus areas that address synthesis and characterization methods, functional hybrid materials, hybrid materials influenced by biology, structured mesoporous materials and materials with multiscale organization. Topics include: methods of patterning hybrid materials; hybrid materials for photonic applications; mesoporous films and monoliths; biofunctional materials; layered hybrid materials; applications-oriented hybrid materials; hybrid materials for electronics, optoelectronics and semiconductor applications; methods of characterizing hybrid materials; and novel synthetic methods.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
Energy Landscapes of Nanoscale Systems provides a snapshot of the state-of-the-art in energy landscapes theory and applications. The book's chapters reflect diversity and knowledge transfer that is a key strength of the energy landscape approach. To reflect the breadth of this field, contributions include applications for clusters, biomolecules, crystal structure prediction and glassy materials. Chapters highlighting new methodologies, especially enhanced sampling techniques are included. In particular, the development and application of global optimization for structure prediction, methods for treating broken ergodicity on multifunnel landscapes, and treatment of rare event dynamics that reflect the state-of-the-art are featured. This book is an important reference source for materials scientists and energy engineers who want to understand more about how nanotechnology applies to the energy landscape approach. This volume is dedicated to Prof. Roy L. Johnston, who was formerly Co-Editor of the Frontiers of Nanoscience series, and who passed away in 2019. - Outlines applications and advances in theory and simulation of energy systems at the nanoscale - Explores how the energy landscapes approach is being applied to nanoscale materials - Assesses major challenges in applying nanomaterials for energy applications on an industrial scale
Solar-cell performance is critically dependent on the optical and electrical properties of their constituent materials. In order to obtain significant improvements in performance for future generations of photovoltaic devices, it will be necessary to either improve the properties of existing materials or engineer new materials and device structures. This book focuses on materials issues and advances for photovoltaics. Topics include: dye-sensitized solar cells; nanoparticle/hybrid solar cells; polymer-based devices; small molecule-based devices; III-V semiconductors; II-VI semiconductors and transparent conducting oxides and silicon thin films.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
Comprehensive Inorganic Chemistry II, Nine Volume Set reviews and examines topics of relevance to today’s inorganic chemists. Covering more interdisciplinary and high impact areas, Comprehensive Inorganic Chemistry II includes biological inorganic chemistry, solid state chemistry, materials chemistry, and nanoscience. The work is designed to follow on, with a different viewpoint and format, from our 1973 work, Comprehensive Inorganic Chemistry, edited by Bailar, Emeléus, Nyholm, and Trotman-Dickenson, which has received over 2,000 citations. The new work will also complement other recent Elsevier works in this area, Comprehensive Coordination Chemistry and Comprehensive Organometallic Chemistry, to form a trio of works covering the whole of modern inorganic chemistry. Chapters are designed to provide a valuable, long-standing scientific resource for both advanced students new to an area and researchers who need further background or answers to a particular problem on the elements, their compounds, or applications. Chapters are written by teams of leading experts, under the guidance of the Volume Editors and the Editors-in-Chief. The articles are written at a level that allows undergraduate students to understand the material, while providing active researchers with a ready reference resource for information in the field. The chapters will not provide basic data on the elements, which is available from many sources (and the original work), but instead concentrate on applications of the elements and their compounds. Provides a comprehensive review which serves to put many advances in perspective and allows the reader to make connections to related fields, such as: biological inorganic chemistry, materials chemistry, solid state chemistry and nanoscience Inorganic chemistry is rapidly developing, which brings about the need for a reference resource such as this that summarise recent developments and simultaneously provide background information Forms the new definitive source for researchers interested in elements and their applications; completely replacing the highly cited first edition, which published in 1973