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.
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Probing the Interaction of Poly(vinylpyrrolidone) with Platinum Nanocrystals by UV-Raman and FTIR
TL;DR: PVP adheres to the nanoparticles through a charge-transfer interaction between the pyrrolidone rings and surface Pt atoms, and heating the Pt nanoparticles under reducing conditions initiate the decomposition of the capping agent, PVP, at a temperature 100 degrees C below that of pure PVP.
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Sub-10 nm Platinum Nanocrystals with Size and Shape Control: Catalytic Study for Ethylene and Pyrrole Hydrogenation
Chia-Kuang Tsung,John N. Kuhn,Wenyu Huang,Cesar Aliaga,Ling-I Hung,Gabor A. Somorjai,Peidong Yang +6 more
TL;DR: Platinum nanocubes and nanopolyhedra with tunable size from 5 to 9 nm were synthesized by controlling the reducing rate of metal precursor ions in a one-pot polyol synthesis by a two-stage process for the simultaneous control of size and shape.
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Mirrorless lasing from mesostructured waveguides patterned by soft lithography
Peidong Yang,Gernot Wirnsberger,Howard C. Huang,Steven R. Cordero,Michael D. McGehee,Brian L. Scott,Tao Deng,George M. Whitesides,Bradley F. Chmelka,Steven K. Buratto,Galen D. Stucky +10 more
TL;DR: These highly processible, self-assembling mesostructured host media and claddings may have potential for the fabrication of integrated optical circuits.
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Bismuth nanotubes: a rational low-temperature synthetic route.
TL;DR: The synthesis of bismuth metal nanotubes with uniform diameters of 5 nm and lengths ranging between 0.5-5 μm is reported, which indicates that phosphorus nanot tubes are stable and an interesting system for studying quantum confinement effects.
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Plasmon-Enhanced Photocatalytic CO2 Conversion within Metal-Organic Frameworks under Visible Light
Kyung Min Choi,Dohyung Kim,Bunyarat Rungtaweevoranit,Christopher A. Trickett,Jesika Trese Deniz Barmanbek,Ahmad S. Alshammari,Peidong Yang,Omar M. Yaghi +7 more
TL;DR: A metal-organic framework (MOF)-coated nanoparticle photocatalyst with enhanced CO2 reduction activity and stability, which stems from having two different functional units for activity enhancement and catalytic stability combined together as a single construct.