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Multifunctional Photocatalytic Materials for Energy discusses recent developments in multifunctional photocatalytic materials, such as semiconductors, quantum dots, carbon nanotubes and graphene, with an emphasis on their novel properties and synthesis strategies and discussions of their fundamental principles and applicational achievements in energy fields, for example, hydrogen generation from water splitting, CO2 reduction to hydrocarbon fuels, degradation of organic pollutions and solar cells. This book serves as a valuable reference book for researchers, but is also an instructive text for undergraduate and postgraduate students who want to learn about multifunctional photocatalytic materials to stimulate their interests in designing and creating advanced materials.
Covers all aspects of recent developments in multifunctional photocatalytic materials Provides fundamental understanding of the structure, properties and energy applications of these materials Contains contributions from leading international experts in the field working in multidisciplinary subject areas Focuses on advanced applications and future research advancements, such as graphene-based nanomaterials and multi-hybrid nanocomposites Presents a valuable reference for researchers and students that stimulates interest in designing advanced materials for renewable energy resources2 848 kr
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Flexible and wearable technologies are gaining wide attention with their promise of applications in sensing, electronics, and energy. The materials involved should be flexible, lightweight, robust, and non-toxic. Natural biopolymers such as silk, chitin, collagen, cellulose, and gelatine have these properties, with the additional benefits of low cost, renewability, and biocompatibility. Taking a closer look at these soft materials and their forms reveals novel multifunctional abilities, paving the way for new devices.
Introducing the recent development of multifunctional natural polymers, this book serves as a reference for researchers, detailing the novel properties and behaviour of natural biopolymers, and their synthetic strategies. Students will find this a useful introduction to multifunctional soft matter and polymer physics. Throughout the book an understanding of the principles of flexible and wearable device design will allow readers to connect materials to applications in wearable electronics, such as flexible sensors, soft robots, solar cells and energy storage devices.
3 149 kr
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Flexible and wearable technologies are gaining wide attention with their promise of applications in sensing, electronics, and energy. The materials involved should be flexible, lightweight, robust, and non-toxic. Natural biopolymers such as silk, chitin, collagen, cellulose, and gelatine have these properties, with the additional benefits of low cost, renewability, and biocompatibility. Taking a closer look at these soft materials and their forms reveals novel multifunctional abilities, paving the way for new devices.
Introducing the recent development of multifunctional natural polymers, this book serves as a reference for researchers, detailing the novel properties and behaviour of natural biopolymers, and their synthetic strategies. Students will find this a useful introduction to multifunctional soft matter and polymer physics. Throughout the book an understanding of the principles of flexible and wearable device design will allow readers to connect materials to applications in wearable electronics, such as flexible sensors, soft robots, solar cells and energy storage devices.