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A comprehensive resource filled with strategic insights, tools, and techniques for the design and construction of hybrid materials Hybrid materials represent the best of material properties being combined for the development for materials with properties otherwise unavailable for application requirements. Novel Nanoscale Hybrid Materials is a comprehensive resource that contains contributions from a wide range of noted scientists from various fields, working on the hybridization of nanomolecules in order to generate new materials with superior properties. The book focuses on the new directions…mehr

Produktbeschreibung
A comprehensive resource filled with strategic insights, tools, and techniques for the design and construction of hybrid materials Hybrid materials represent the best of material properties being combined for the development for materials with properties otherwise unavailable for application requirements. Novel Nanoscale Hybrid Materials is a comprehensive resource that contains contributions from a wide range of noted scientists from various fields, working on the hybridization of nanomolecules in order to generate new materials with superior properties. The book focuses on the new directions and developments in design and application of new materials, incorporating organic/inorganic polymers, biopolymers, and nanoarchitecture approaches. This book delves deeply into the complexities that arise when characteristics of a molecule change on the nanoscale, overriding the properties of the individual nanomolecules and generating new properties and capabilities altogether. The main topics cover hybrids of carbon nanotubes and metal nanoparticles, semiconductor polymer/biopolymer hybrids, metal biopolymer hybrids, bioorganic/inorganic hybrids, and much more. This important resource: * Addresses a cutting-edge field within nanomaterials by presenting a groundbreaking topics that address hybrid nanostructures * Includes contributions from an interdisciplinary group of chemists, physicists, materials scientists, chemical and biomedical engineers * Contains applications in a wide-range of fields--including biomedicine, energy, catalysis, green chemistry, graphene chemistry, and environmental science * Offers expert commentaries that explore potential future avenues of future research trends Novel Nanoscale Hybrid Materials is an important resource for chemists, physicists, materials, chemical and biomedical engineers that offers the most recent developments and techniques in hybrid nanostructures.

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Autorenporträt
BHANU P. S. CHAUHAN is a Professor and the Chairperson of the Department of Chemistry at William Paterson University, where he heads the Engineered Nanomaterials Laboratory. He obtained his PhD under the guidance of Professor Robert Corriu and Gerard Lanneau from Montpellier University II, France and received postdoctoral training in the groups of Professor Masato Tanaka (National Institute of Materials and Chemical Research in Japan) and Professor Phil Boudjouk (North Dakota State University). He has held the position of Assistant Professor at the Catholic University of America and City University of New York-CSI, where he also attained the rank of Associate Professor. He joined William Paterson University (WPU) in 2007 as a Professor and Chair of the Department. His research area is in the field of nanomaterials synthesis and application in areas such as green catalysis, hybrid materials for new optical and data storage, and nanostructure-based drug delivery vehicles.