P
Peidong Yang
Researcher at University of California, Berkeley
Publications - 597
Citations - 159053
Peidong Yang is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Nanowire & Perovskite (structure). The author has an hindex of 183, co-authored 562 publications receiving 144351 citations. Previous affiliations of Peidong Yang include Max Planck Society & University of California, Santa Barbara.
Papers
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25th Anniversary Article: Semiconductor Nanowires – Synthesis, Characterization, and Applications
Neil P. Dasgupta,Jianwei Sun,Jianwei Sun,Chong Liu,Chong Liu,Sarah Brittman,Sarah Brittman,Sean C. Andrews,Sean C. Andrews,Jongwoo Lim,Jongwoo Lim,Hanwei Gao,Hanwei Gao,Ruoxue Yan,Ruoxue Yan,Peidong Yang +15 more
TL;DR: A detailed explanation of the unique properties associated with the one-dimensional nanowire geometry will be presented, and the benefits of these properties for the various applications will be highlighted.
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Silicon Vertically Integrated Nanowire Field Effect Transistors
TL;DR: In this paper, the authors demonstrate the direct vertical integration of Si nanowire arrays into surrounding gate field effect transistors without the need for postgrowth nanowires assembly processes.
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Semiconductor nanowire: what's next?
TL;DR: In this perspective, a critical look at the research progress within the nanowire community for the past decade is taken and personal opinions on what the future trends will be in nanowires research are offered.
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Mesocellular siliceous foams with uniformly sized cells and windows
Patrick Schmidt-Winkel,Wayne W. Lukens,Dongyuan Zhao,Peidong Yang,Bradley F. Chmelka,Galen D. Stucky +5 more
TL;DR: The mesocellular foams (MCFs) as discussed by the authors are composed of uniformly sized, large spherical cells that are interconnected by uniform windows to create a continuous 3D pore system.
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Controlled growth and electrical properties of heterojunctions of carbon nanotubes and silicon nanowires
TL;DR: In this article, the authors report controlled, catalytic growth of metal-semiconductor junctions between carbon nanotubes and silicon nanowires, and show that these junctions exhibit reproducible rectifying behavior.