Photoenergy and Thin Film Materials

Name: Photoenergy and Thin Film Materials
Brand: John Wiley & Sons Inc
SKU: 9781119580461
Price: 296.3 EUR
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Product details

ISBN 9781119580461
Weight: 454g
Dimensions: 10 x 10mm
Publication Date: 05 Apr 2019
Publisher: John Wiley & Sons Inc
Publication City/Country: US
Product Form: Hardback
Language: English

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This book provides the latest research & developments and future trends in photoenergy and thin film materials—two important areas that have the potential to spearhead the future of the industry.

Photoenergy materials are expected to be a next generation class of materials to provide secure, safe, sustainable and affordable energy. Photoenergy devices are known to convert the sunlight into electricity. These types of devices are simple in design with a major advantage as they are stand-alone systems able to provide megawatts of power. They have been applied as a power source for solar home systems, remote buildings, water pumping, megawatt scale power plants, satellites, communications, and space vehicles. With such a list of enormous applications, the demand for photoenergy devices is growing every year.

On the other hand, thin films coating, which can be defined as the barriers of surface science, the fields of materials science and applied physics are progressing as a unified discipline of scientific industry. A thin film can be termed as a very fine, or thin layer of material coated on a particular surface, that can be in the range of a nanometer in thickness to several micrometers in size. Thin films are applied in numerous areas ranging from protection purposes to electronic semiconductor devices.

The 16 chapters in this volume, all written by subject matter experts, demonstrate the claim that both photoenergy and thin film materials have the potential to be the future of industry.

Xiao-Yu Yang earned his BS degree from Jilin University in 2000 and his joint PhD degree from Jilin University, China and FUNDP, Belgium (co-education) in 2007. He is currently working as a full professor at the State Key Laboratory of Advanced Technology for Material Synthesis and Processing, Wuhan University of Technology, China, and as a visiting professor at Harvard University. He is editor of the Journal of Nanostructures and Nano-Objects. His research is aimed at thin film, self-assembly technology, hierarchical materials, catalysis, and cell-surface-engineering. He has authored and co-authored more than 50 scientific publications and 10 patents.