F
Fan Yang
Researcher at China University of Petroleum
Publications - 1888
Citations - 34524
Fan Yang is an academic researcher from China University of Petroleum. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 65, co-authored 986 publications receiving 23818 citations. Previous affiliations of Fan Yang include G. D. Searle & Company & Peking University.
Papers
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Journal ArticleDOI
Evidence for the random singlet phase in the honeycomb iridate SrIr 2 O 6
Pengbo Song,Kejia Zhu,Kejia Zhu,Fan Yang,Yuan Wei,Lu Zhang,Huaixin Yang,Xian-Lei Sheng,Yang Qi,Jiamin Ni,Shiyan Li,Yanchun Li,Guanghan Cao,Guanghan Cao,Zi Yang Meng,Zi Yang Meng,Wei Li,Youguo Shi,Shiliang Li +18 more
TL;DR: In this paper, a trigonal spin-orbital-coupled magnetic system with the honeycomb structure can provide bond-directional interactions which may result in Kitaev quantum spin liquids and exotic anyonic excitations.
Proceedings ArticleDOI
Fast panoramic face mosaicing and recognition
TL;DR: This article built a simple acquisition system composed of 5 standard cameras which can take simultaneously 5 views of a face at different angles, and chose an easily hardware-achievable algorithm, consisting of successive linear transformations, to compose a panoramic face from these 5 views.
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Electrocatalytic Water Oxidation at Neutral pH–Deciphering the Rate Constraints for an Amorphous Cobalt‐Phosphate Catalyst System
Si Liu,Ivelina Zaharieva,Luca D'Amario,Stefan Mebs,Paul Kubella,Fan Yang,Paul Beyer,Michael Haumann,Holger Dau +8 more
TL;DR: In this article , the rate limitations in neutral-pH OER are clarified using cobalt-based catalyst films and phosphate ions as essential electrolyte bases, and current-potential curves are recorded and simulated.
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A flexible sandwiched graphite nanoplatelets/copper nanowires/graphite nanoplatelets paper with superior electrical conductivity
TL;DR: In this paper, flexible graphite nanoplatelets (GNPs) and copper nanowires (Cu NWs) composites of a sandwich-like structure were prepared by a simple filtration method.
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Enhanced catalytic activities of Fe anchored on graphene substrates for water splitting and hydrogen evolution
TL;DR: In this article , the structure and electronic features of isolated Fe atom anchored on three graphene surfaces with single vacancy (SV), double vacancy (DV) and Stone-Wales structure (SW) defect were systematically explored.