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
More filters
Journal ArticleDOI
Measurements of hc(P11) in ψ ′ Decays
M. Ablikim,M. N. Achasov,L. An,Q. An,Z. H. An,J. Z. Bai,Y. Ban,Niklaus Berger,J. M. Bian,Igor Boyko,R. A. Briere,V. V. Bytev,X. Cai,G. F. Cao,X. X. Cao,J. F. Chang,G. A. Chelkov,G. A. Chelkov,G. F. Chen,H. S. Chen,J. C. Chen,L. P. Chen,M. L. Chen,Peng Chen,Sai-Juan Chen,Yi Bing Chen,Y. P. Chu,D. Cronin-Hennessy,H. L. Dai,J. P. Dai,D. V. Dedovich,Z. Y. Deng,I. Denysenko,M. Destefanis,Y. Ding,L. Y. Dong,M. Y. Dong,S. X. Du,M. Y. Duan,J. Fang,C. Q. Feng,C. D. Fu,J. L. Fu,Yang Gao,C. Geng,K. Goetzen,W. X. Gong,Michela Greco,S. Grishin,Y. T. Gu,A. Q. Guo,L. B. Guo,Y. P. Guo,Shuang Han,F. A. Harris,Kunlun He,Miao He,Z. Y. He,Y. K. Heng,Z. L. Hou,H. M. Hu,Jifeng Hu,T. Hu,X. W. Hu,B. Huang,Guangming Huang,J. S. Huang,Xingtao Huang,Yanping Huang,C. S. Ji,Q. P. Ji,X. B. Ji,X. L. Ji,L. K. Jia,L. L. Jiang,X. S. Jiang,J. B. Jiao,D. P. Jin,S. Jin,Sachio Komamiya,W. Kuehn,S. Lange,J. K. C. Leung,Cheng Li,Cui Li,D. M. Li,F. Li,G. Li,H. B. Li,J. C. Li,Jiemin Li,Lei Li,Lu Li,Q. J. Li,W. D. Li,W. G. Li,X. L. Li,X. N. Li,X. Q. Li,X. R. Li,Yongxiang Li,Z. B. Li,Hao Liang,T. R. Liang,Y. T. Liang,Y. F. Liang,G. R. Liao,X. T. Liao,Brent J. Liu,Brent J. Liu,Chuan Liu,C. X. Liu,Chang Liu,Fu-Hu Liu,Fang Liu,Feng Liu,G. C. Liu,H. H. Liu,H. B. Liu,H. M. Liu,Hang Liu,J. P. Liu,Jia Liu,K. Y. Liu,K. Y. Liu,Q. Liu,S. B. Liu,X. H. Liu,Y. B. Liu,Yu-Bin Liu,Y. W. Liu,Yong Liu,Z. A. Liu,G. R. Lu,J. G. Lu,Qi-Wen Lü,Xiao-Tong Lu,Y. P. Lu,C. L. Luo,M. X. Luo,Tao Luo,X. L. Luo,C. L. Ma,F. C. Ma,Hongli Ma,Qingming Ma,X. B. Ma,X. Y. Ma,M. Maggiora,Y. J. Mao,Z. P. Mao,J. Min,X. H. Mo,N. Yu. Muchnoi,Y. Nefedov,F. P. Ning,S. L. Olsen,Q. Ouyang,M. Pelizaeus,Krisztian Peters,Jialun Ping,R. G. Ping,R. Poling,Chun S. J. Pun,M. Qi,S. Qian,C. F. Qiao,J. F. Qiu,G. Rong,Xiangdong Ruan,A. Sarantsev,A. Sarantsev,M. Shao,C. P. Shen,Xueyong Shen,H. Y. Sheng,S. Sonoda,S. Spataro,B. Spruck,D. H. Sun,G. X. Sun,J. F. Sun,S. S. Sun,X. Sun,Y. J. Sun,Y. Z. Sun,Zhi-Jun Sun,Zhe Sun,C. J. Tang,X. Tang,X. F. Tang,H. L. Tian,D. Toth,G. S. Varner,X. Wan,B. Q. Wang,Jiawei Wang,Ke Wang,L. L. Wang,L. S. Wang,P. L. Wang,P. L. Wang,Qun-Yao Wang,Shan Wang,X. D. Wang,X. L. Wang,Yao Wang,Y. F. Wang,Y. Q. Wang,Zujian Wang,Z. G. Wang,Z. Y. Wang,D. H. Wei,S. P. Wen,Ulrich Wiedner,L. H. Wu,N. Wu,Wei Wu,Y. M. Wu,Z. Wu,Z. J. Xiao,Yuehong Xie,G. F. Xu,G. M. Xu,H. Xu,Min Xu,Ming Xu,X. P. Xu,Yin Xu,Z. Z. Xu,Z. Xue,Li Yan,W. B. Yan,Y. H. Yan,H. X. Yang,Mingming Yang,Peidong Yang,San-Ming Yang,Y. X. Yang,M. H. Ye,M. H. Ye,B. X. Yu,C. X. Yu,L. Yu,C. Z. Yuan,Y. Yuan,Y. Zeng,B. X. Zhang,B. Y. Zhang,C. C. Zhang,D. H. Zhang,H. H. Zhang,H. Y. Zhang,J. W. Zhang,J. Y. Zhang,J. Z. Zhang,L. Zhang,S. H. Zhang,Xiao-Yang Zhang,Y. Zhang,Y. H. Zhang,Zhenyu Zhang,Cang Zhao,HongSheng Zhao,Jiawei Zhao,Jingwei Zhao,Lei Zhao,Ling Zhao,M. G. Zhao,Q. Zhao,S. J. Zhao,Tiefu Zhao,X. H. Zhao,Yi-Fang Zhao,Z. G. Zhao,A. Zhemchugov,A. Zhemchugov,B. Zheng,Jianping Zheng,Y. H. Zheng,Zong-Ping Zheng,B. Zhong,J. Zhong,L. P. Zhou,Z. L. Zhou,C. Zhu,K. J. Zhu,K. J. Zhu,Q. M. Zhu,Xiaobo Zhu,Y. S. Zhu,Z. A. Zhu,J. Zhuang,B. S. Zou,J. H. Zou,J. X. Zuo,P. Zweber +296 more
TL;DR: In this article, the absolute branching ratio of the charmonium state h(c) (P-1(1)) with and without subsequent radiative decay was measured with BESIII at BEPCII.
Journal ArticleDOI
All Inorganic Semiconductor Nanowire Mesh for Direct Solar Water Splitting
TL;DR: It is shown that a semiconductor mesh made from all inorganic nanowires can achieve unassisted solar-driven, overall water-splitting without using any electron mediators.
Patent
Nanostructures having high performance thermoelectric properties
TL;DR: In this paper, the authors proposed a nanostructure, or an array of such nanostructures, each comprising a rough surface, and a doped or undoped semiconductor.
Journal ArticleDOI
Surfactant‐Induced Mesoscopic Assemblies of Inorganic Molecular Chains
TL;DR: In this article, post thermal treatments were performed by heating the water phase in a water bath at 60 C for an hour with magnetic stirring, then the precipitates were filtered and washed with absolute alcohol and distilled water, then dried in vacuum at 20 C.
Journal ArticleDOI
Synthesis of Lead Chalcogenide Alloy and Core–Shell Nanowires
TL;DR: The formation of lead chalcogenide heterostructure nanowires is demonstrated by a solution-phase synthesis at moderate temperatures (see the Experimental Section) and two types of heterostructures (alloy and core–shell) were prepared by changing the concentration and temperature of the reaction.