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Full Description
Currently, many of the technological advances around the world are limited by the lack of understanding about materials science and its applications. Beginning researchers in materials sciences worldwide have had great difficulty developing their research. This book is aimed at undergraduate students and researchers in materials sciences. It aims to provide a greater understanding of the potential of semiconductor materials for environmental applications such as renewable energy, energy storage systems, and remediation of degraded environments.
Contents
Dedication. Preface. Introduction. Fundamental Mechanism for Semiconductor Photocatalysts. Synthesis Strategy to Obtain Oxide Photocatalysts. Method of Characterization for Photocatalysts. Energy Band Engineering of Semiconductor Forward Enhanced Photocatalysis. Ag-based Metal Oxides as Semiconductors: A Joint Theoretical and Experimental Investigation on the Photocatalytic Activity. Semiconductor Materials for Degradation of Organic Pollutants. Fundamentals of Photoelectrocatalysis for Environmental Applications. Heterojunction Nanostructures for Photocatalysis. Semiconductor Photocatalytic for Green Hydrogen Generation. Plasmonic-based Photocatalysts for Environmental Remediation. Photocatalyst for Solar Cell Conversion. Fundamentals of Semiconductors for Supercapacitor. Nanomaterials for Fuel Cell Applications. Ferroelectric Semiconductors for Photocatalysis. Index. About the Editors.
