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This reference text covers the latest issues in the area of nanostructured materials for energy and environmental applications. It focuses on functional aspects, including the basic principles and mechanisms behind the selection of the materials. The applications covered include catalysts, sensors, magnetic refrigeration, and functional electrode materials for energy harvesting (including solar cells, fuel cells and supercapacitors). The text addresses the past, present, and future status of the research through the simplification of the vast literature. Each chapter demonstrates how the nanostructured materials, and their device applications are linked, providing a vital bridge between the research and realisation of the technology. The book compiles results and diagrams in a clear format for researchers, postgraduate students, and industry practitioners, including non-specialists, and provides an overview of the latest current topics in the field.
Key Features
Covers the latest issues in the area of nanostructured materials for energy and environmental applications.
Includes catalysts, sensors, magnetic refrigeration, and functional electrode materials for energy harvesting (solar cells, fuel cells and supercapacitors).
Covers functional aspects of nanostructured materials and their engineering applications, with a particular focus on the basic principles and mechanisms behind the selection of the materials.
Demonstrates how nanostructured materials and their device applications are linked, providing a vital bridge between the research and realisation of the technology.
Acts as a guide for students, researchers and industry practitioners who are searching for suitable nanomaterials for energy and environmental applications.
Introduction to engineering nanostructured materials for energy and environmental applications
Engineering 2D chalcogenides for energy and environmental remediation
Two-dimensional nanolayers for wearable supercapacitors
Micro-mesoporous carbon-based nanostructured materials for flexible supercapacitors
Platinum based alloy nanostructure electrocatalyst for oxygen reduction reaction in polymer electrolyte membrane fuel cells
Ultrathin, flexible hybrid transition metal oxide nanostructures for renewable energy storage devices
Graphene based nanocomposites for energy conversion: the oxygen reduction, oxygen evolution, and hydrogen evolution reactions
Materials science of advanced carbon nanomaterials for photovoltaic and photothermal devices
Metal doped iron (III) oxide nanomaterials for wastewater treatment
Nanoferrites for green magnetic refrigeration
Degradation of antibiotic pollutants and green hydrogen production from wastewater through a photocatalytic reaction
Fluorescent nanoclusters used as a probe for sensing of toxic chemicals and biomolecules