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MXenes From Discovery to Applications of Two-Dimensional Metal Carbides and Nitrides

MXenes From Discovery to Applications of Two-Dimensional Metal Carbides and Nitrides

Since their discovery in 2011 MXenes (2D carbides nitrides and carbonitrides of early transition metals) have developed into one of the largest and most intensively studied families of 2D materials. They offer unique properties and are being explored in a large variety of applications. This book compiles the most important research from a pioneer of the field Professor Yury Gogotsi and his interdisciplinary research team as well as numerous collaborators worldwide. It reports on the discovery and rise of MXenes and describes their synthesis and processing properties and incorporation into polymer ceramic and metal matrices to produce composites. It also discusses the potential of MXenes for use in energy storage optics electronics and sensing as well as biomedical environmental and electrocatalysis applications. The book will appeal to anyone interested in nanomaterials and their synthesis properties and applications. | MXenes From Discovery to Applications of Two-Dimensional Metal Carbides and Nitrides

GBP 385.00
1

Strongly Correlated Electrons in Two Dimensions

Strongly Correlated Electrons in Two Dimensions

The properties of strongly correlated electrons confined in two dimensions are a forefront area of modern condensed matter physics. In the past two or three decades strongly correlated electron systems have garnered a great deal of scientific interest due to their unique and often unpredictable behavior. Two of many examples are the metallic state and the metal–insulator transition discovered in 2D semiconductors: phenomena that cannot occur in noninteracting systems. Tremendous efforts have been made in both theory and experiment to create an adequate understanding of the situation; however a consensus has still not been reached. Strongly Correlated Electrons in Two Dimensions compiles and details cutting-edge research in experimental and theoretical physics of strongly correlated electron systems by leading scientists in the field. The book covers recent theoretical work exploring the quantum criticality of Mott and Wigner–Mott transitions experiments on the metal–insulator transition and related phenomena in clean and dilute systems the effect of spin and isospin degrees of freedom on low-temperature transport in two dimensions electron transport near the 2D Mott transition experimentally observed temperature and magnetic field dependencies of resistivity in silicon-based systems with different levels of disorder and microscopic theory of the interacting electrons in two dimensions. Edited by Sergey Kravchenko a prominent experimentalist this book will appeal to advanced graduate-level students and researchers specializing in condensed matter physics nanophysics and low-temperature physics especially those involved in the science of strong correlations 2D semiconductors and conductor–insulator transitions.

GBP 85.99
1

Nanomaterials for Spectroscopic Applications

Nanomaterials for Spectroscopic Applications

This book provides an overview of key current developments in the synthetic strategy of functional novel nanomaterials in various spectroscopic characterizations and evaluations and highlights possible future applications in nanotechnology and materials science. It illustrates the wide-ranging interest in these areas and provides a background to the later chapters which address the novel synthesis of high-yield nanomaterials and their biomaterials graphene polymeric nanomaterials green nanomaterials green polyester liquid crystal electro-optic switching applications nanobiotechnology transition metal oxides response characteristics of exclusive spectroscopic investigation as well as electron microscopic study flexible and transparent electrodes optoelectronics nanoelectronics smart displays switchable device modulation health care energy storage solar/fuel cells environmental and plant biology social ethical and regulatory implications of various aspects of green nanotechnology as well as significant foreseeable spectroscopic applications of key functional nanomaterials. Given appropriate regulation for and research on the topics covered commercial production of manufactured novel composite materials can be realized. Furthermore the many discoveries highlighted in the book can modulate spectroscopic performances with technical excellence in multidisciplinary research of high competence. | Nanomaterials for Spectroscopic Applications

GBP 116.00
1

Topological Quantum Materials Concepts Models and Phenomena

Topological Quantum Materials Concepts Models and Phenomena

In topological quantum materials quantum effects emerge at macroscopic scales and are robust to continuous changes in a material’s state. This striking synergy between quantum and topological properties is of great interest for both fundamental research and emerging technologies especially in the fields of electronics and quantum information. This edition of the book presents a wealth of topological quantum materials bringing together burgeoning research from different areas: topological insulators transition metal dichalcogenides Weyl semimetals and unconventional and topological superconductors. The realization of the application potential of topological quantum materials requires understanding their properties at a fundamental level. This brings us back to the discovery of topological phases of matter which earned the Nobel Prize in Physics in 2016. This book explores the connection between pioneering work on topological phases of matter and a flurry of activity that followed. The topics covered include the quantum anomalous and spin Hall effects emergent axion electrodynamics and topological magnetoelectric effects Weyl nodes and surface Fermi arcs weak antilocalization induced triplet superconductivity Majorana fermion modes and the fractional Josephson effect. | Topological Quantum Materials Concepts Models and Phenomena

GBP 139.00
1

Functional Materials Advances and Applications in Energy Storage and Conversion

Functional Materials Advances and Applications in Energy Storage and Conversion

The world is currently facing the urgent and demanding challenges of saving and utilizing energy as efficiently as possible. Materials science where chemistry meets physics has garnered a great deal of attention because of its versatile techniques for designing and producing new desired materials enabling energy storage and conversion. This book is a comprehensive survey of the research on such materials. Unlike a monograph or a review book it covers a wide variety of compounds details diverse study methodologies and spans different scientific fields. It contains cutting-edge research in chemistry and physics from the interdisciplinary team of Ehime University (Japan) the members of which are currently broadening the horizon of materials sciences through their own ideas tailored equipment and state-of-the-art techniques. Edited by Toshio Naito a prominent materials scientist this book will appeal to anyone interested in solid-state chemistry organic and inorganic semiconductors low-temperature physics or the development of functional materials including advanced undergraduate- and graduate-level students of solid-state properties and researchers in metal-complex science materials science chemistry and physics especially those with an interest in (semi)conducting and/or magnetic materials for energy storage and conversion. | Functional Materials Advances and Applications in Energy Storage and Conversion

GBP 139.00
1