Semiconductors for Photocatalysis
492Semiconductors for Photocatalysis
492eBook
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Overview
Semiconductors for Photocatalysis, Volume 97 covers the latest breakthrough research and exciting developments in semiconductor photocatalysts and electrodes for water splitting and CO2 reduction. It includes a broad range of materials such as metal-oxides, metal-nitrides, silicon, III-V semiconductors, and the emerging layered compounds. New to this volume are chapters covering the Fundamentals of Semiconductor Photoelectrodes, Charge Carrier Dynamics in Metal Oxide Photoelectrodes for Water Oxidation, Photophysics and Photochemistry at the Semiconductor/Electrolyte Interface for Solar Water Splitting, V Semiconductor Photoelectrodes, III-Nitride Semiconductor Photoelectrodes, and Rare Earth Containing Materials for Photoelectrochemical Water Splitting Applications. In addition, the design and modeling of photocatalysts and photoelectrodes and the fundamental mechanisms of water splitting and CO2 reduction is also discussed.
- Features the latest breakthroughs and research and development in semiconductor photocatalysis, solar fuels, and artificial photosynthesis
- Covers a broad range of topics, including a wide variety of materials and many important aspects of solar fuels
- Includes in-depth discussions on materials design, growth and synthesis, engineering, characterization, and photoelectrochemical studies
Product Details
ISBN-13: | 9780128117286 |
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Publisher: | Elsevier Science |
Publication date: | 06/30/2017 |
Series: | ISSN , #97 |
Sold by: | Barnes & Noble |
Format: | eBook |
Pages: | 492 |
File size: | 62 MB |
Note: | This product may take a few minutes to download. |
About the Author
Lianzhou Wang is currently Professor and ARC Future Fellow in School of Chemical Engineering and Australian Institute for Bioengineering and Nanotechnology, and Director of Nanomaterials Centre, the University of Queensland. Lianzhou’s research focuses on the synthesis, characterisation and application of functional nanomaterials for use in renewable energy conversion/storage systems, including photocatalytsts, low cost solar cells, and rechargeable batteries. In the last ten years' time, as a Chief Investigator, he has succeeded in winning a large number of competitive grants, including 19 Australian Research Council grants and >20 research projects from other agencies such as CSIRO, Queensland Government, Corporative Research Centre, and industry, totaling the funding of excess $18 million Australian dollars. Lianzhou has contributed 10 book chapters, >250 original journal publications, 11 patents and over 60 plenary/keynote/invited presentations. He has been actively involved in organising more than 25 conferences and is severing as Associate Editor of Journal of Nanoparticle Research and Science Bulletin and is also on Editorial Broad of three other international journals. Lianzhou has won some prestigious Fellowships/awards including STA Fellowship of Japan, ARC Queen Elizabeth II Fellowship (2006), UQ Research Excellence Award of 2008, Scopus Young Researcher Award of 2011 (Engineering and Technology category, Australian Universities), ARC Future Fellowship of 2012, and ARC College of Experts for 2016-2018. He is the elected fellow of Royal Society of Chemistry.
Chennupati Jagadish is a Distinguished Professor in Electronic Materials Engineering in the Research School of Physics and Engineering at the Australian National University. He has more than 35 years of research experience in semiconductor physics, materials science and optoelectronic devices. He has published more than 550 journal papers and edited many books and has given more than 120 plenary, keynote and invited talks at prime conferences in the field. He is world renowned in the fields of semiconductor optoelectronics and nanotechnology. He has received 2015 IEEE Nanotechnology Pioneer Award, 2015 IEEE Photonics Society Engineering Achievement Award, 2013 Walter Boas Medal and 2010 Quantum Device Award and Fellow Australian Academy of Science, Australian Academy of Technological Sciences and Engineering, The World Academy of Sciences and 14 other professional societies.In 2016 Jagadish was awarded the highest civilian honour given by Australian Government, Companion of Order of Australia (AC) as part of Australia Day Honours announced by the Governor General's office.
Table of Contents
Part I: Fundamentals of Semiconductor Photoelectrodes 1. Charge Carrier Dynamics in Metal Oxide Photoelectrodes for Water OxidationAndreas Kafizas, Robert Godin and James R. Durrant2. Photophysics and Photochemistry at the Semiconductor/Electrolyte Interface for Solar Water SplittingXiaogang Yang and Dunwei Wang3. III–V Semiconductor PhotoelectrodesGeorges Siddiqi, Zhenhua Pan and Shu Hu4. III-Nitride Semiconductor Photoelectrodes Katsushi Fujii5. Rare Earth Containing Materials for Photoelectrochemical Water Splitting ApplicationsJennifer Leduc, Yakup Goenuellue, Aida Raauf, Thomas Fischer and Sanjay Mathur
Part II: Nanostructured Photocatalysts and Photoelectrodes6. Artificial Photosynthesis on III-Nitride Nanowire ArraysSheng Chu, Xianghua Kong, Srinivas Vanka, Hong Guo and Zetian Mi7. Light-Induced Water Splitting Using Layered Metal Oxides and NanosheetsTakayoshi Oshima, Miharu Eguchi and Kazuhiko Maeda8. Nanostructured Photoelectrodes via Template-Assisted FabricationRowena Yew, Siva Krishna Karuturi, Hark Hoe Tan and Chennupati Jagadish9. Nanostructured Semiconductors for Bifunctional Photocatalytic and Photoelectrochemical Energy Conversion Songcan Wang, Jung-Ho Yun and Lianzhou Wang10. Facet Control of Photocatalysts for Water SplittingJian Pan and Gang Liu11. Black Titanium Dioxide for PhotocatalysisYan Liu and Xiaobo Chen12. Effective Charge Carrier Utilization in Visible-Light-Driven CO2 ConversionXiaoxia Chang, Tuo Wang and Jinlong Gong
What People are Saying About This
In-depth examination of a range of nanostructured materials for anyone working on semiconductors, nanotechnology, and solar energy and photonic devices