Piezotronics and Piezo-Phototronics: Applications to Third-Generation Semiconductors
Wang, Zhong Lin, Zhang, Yan, Hu, Weiguo
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商品描述
Co-authored by the discoverer of the piezotronic effect, this book is a fundamental and comprehensive survey of piezotronics and piezo-phototronics. Piezotronics is a term broadly applied to devices fabricated using the piezopotential as a "gate" voltage to tune/control charge carrier transport at a contact or junction. The piezo-phototronic effect describes the use of the piezopotential to control the carrier generation, transport, separation and/or recombination for improving the performance of optoelectronic devices. The book first introduces the theory of the piezotronic effect and its applications in transistors, sensors, and catalysis. Subsequent chapters comprehensively cover the fundamentals of the piezo-phototronic effect and its impacts on photon sensors, solar cells, and LEDs.
The updated and significantly expanded second edition covers the most recent advances and breakthroughs in this field over the last decade -- gas, chemical, and biological nanosensors; quantumdots, wells, and wires; piezocatalysis; the piezo-photonic effect; and the pyro-phototronic effect. This seminal book serves as a basic text for scientists and students in the field of piezotronic devices and third-generation semiconductors.
商品描述(中文翻譯)
本書由壓電效應的發現者共同撰寫,是對壓電電子學和壓電光電子學的基本且全面的調查。壓電電子學是一個廣泛應用於利用壓電位作為“閘”電壓來調整/控制接觸或接合處的載流子傳輸的設備的術語。壓電光電子效應描述了利用壓電位來控制載流子的產生、傳輸、分離和/或重組,以提高光電設備的性能。本書首先介紹了壓電效應的理論及其在晶體管、傳感器和催化中的應用。隨後的章節全面涵蓋了壓電光電子效應的基本原理及其對光子傳感器、太陽能電池和LED的影響。
更新且顯著擴展的第二版涵蓋了過去十年該領域的最新進展和突破——氣體、化學和生物納米傳感器;量子點、量子井和量子線;壓電催化;壓電光子效應;以及熱光電子效應。本書作為壓電設備和第三代半導體領域科學家和學生的基本教材。
作者簡介
Yan Zhang is a professor at University of Electronic Science and Technology of China. He received Ph.D degree from Lanzhou University in 2004. He is senior member of IEEE. His research interests include piezotronics, piezo-phototronics, self-powered nano/micro system, modeling of nonlinear dynamics of NEMS. He has authored more than 170 peer-reviewed journal articles in these fields.
Weiguo Hu is a principal investigator at the Beijing Institute of Nanoenergy and Nanosystems, Chinese Academy of Sciences (CAS), China. He received his PhD degree from the Institute of Semiconductors, CAS, in 2007. His research focuses on gallium nitride-based piezotronic/piezo-phototronic devices and wearable self-powered nanosystems. He has authored more than 110 peer-reviewed journal articles in these fields.
作者簡介(中文翻譯)
王忠林博士是北京納米能源與納米系統研究所的所長,以及喬治亞理工學院的Regents'教授和Hightower講座教授。王博士在分散式能源、自供電感測器和大規模藍色能源的納米發電機領域開創了先河。王博士曾獲得多項獎項,包括納米研究獎(2022年)、瑞典烏普薩拉大學的Celsius講座獎(2020年)、阿爾伯特·愛因斯坦世界科學獎(2019年)、Diels-Planck講座獎(2019年)、能源前沿ENI獎(2018年)、美國物理學會的詹姆斯·C·麥格羅迪新材料獎(2014年)以及材料研究學會的MRS獎章(2011年)。王博士於2009年當選為中國科學院外籍院士,2002年成為歐洲科學院院士,2018年成為中央研究院院士,2019年成為加拿大工程院國際院士。王博士是國際期刊《Nano Energy》的創始編輯和主編,該期刊目前的影響因子為19.0。
張燕教授是中國電子科技大學的教授。他於2004年獲得蘭州大學的博士學位,是IEEE的資深會員。他的研究興趣包括壓電電子學、壓電光電子學、自供電納米/微系統以及NEMS的非線性動力學建模。他在這些領域發表了超過170篇經過同行評審的期刊文章。
胡偉國是中國科學院北京納米能源與納米系統研究所的首席研究員。他於2007年在中國科學院半導體研究所獲得博士學位。他的研究專注於氮化鎵基壓電電子/壓電光電子設備和可穿戴自供電納米系統。他在這些領域發表了超過110篇經過同行評審的期刊文章。
