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作品数:34被引量:15H指数:2
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相关领域:理学一般工业技术电气工程更多>>
相关机构:上海交通大学更多>>
相关期刊:《Chemical Research in Chinese Universities》《Science China Materials》《Progress in Natural Science:Materials International》《Chinese Journal of Chemistry》更多>>
相关基金:国家自然科学基金国家重点基础研究发展计划更多>>
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Cuprate-like electronic structures in infinite-layer nickelates with substantial hole dopings
《National Science Review》2024年第8期174-180,共7页Xiang Ding Yu Fan Xiaoxiao Wang Chihao Li Zhitong An Jiahao Ye Shenglin Tang Minyinan Lei Xingtian Su Nan Guo Zhihui Chen Suppanut Sangpht lin Wang Haichao Xu Rui Peng Donglai feng 
supported in part by the National Natural Science Foundation of China (12074074,12274085 and 12174365);the National Key R&D Program of the Ministry of Science and Technology (MOST)of China (2023YFA1406300);the New Cornerstone Science Foundation,the Innovation Program for Quantum Science and Technology (2021ZD0302803);the Shanghai Municipal Science and Technology Major Project (2019SHZDZX01);the China National Postdoctoral Program for Innovative Talents (BX20230078);Part of this research used Beamline 03U of the Shanghai Synchrotron Radiation Facility,which is supported by the ME2 project (11227902)from the National Natural Science Foundation of China.
Superconducting infinite-layer(IL)nickelates offer a new platform for investigating the long-standing problem of high-temperature superconductivity.Many models were proposed to understand the superconducting mechanism...
关键词:unconventional superconductivity nickelate superconductors oxide MBE ARPES electronic structure superconducting phase diagram 
Catalytically active atomically thin cuprate with periodic Cu single sites
《National Science Review》2023年第1期221-230,共10页Huimin Yang Shibo Xi Na Guo Mu Wang Lingmei Liu Pin Lyu Xiaolong Yu Jing Li Haomin Xu Xiao Hai Zejun Li Xinzhe Li Tao Sun Xiaoxu Zhao Yu Han Wei Yu Jie Wu Chun Zhang Honghan Fei Ming Joo Koh Jiong Lu 
J.L.acknowledges the support of the Ministry of Education of Singapore Grant(R-143-000-B47-114);J.L.and J.W.are grateful for the support from the National University of Singapore Flagship Green Energy Program(R-143-000-A55-646);the Agency for Science,Technology and Research(A*STAR)under its Advanced Manufacturing and Engineering Individual Research Grants(A20E5c0096);C.Z.is grateful for the support of the Ministry of Education of Singapore Grant(MOE2019-T2-2-030);the National University of Singapore Green Energy Program(R-143-000-A63-114);National University of Singapore Graphene Center Computer Clusters and National Supercomputing Center computer resources;M.J.K.acknowledges the support of the Ministry of Education of Singapore Academic Research Funds Tier 1(R-143-000-B57-114);S.-B.X.acknowledges the support of the X-ray Absorption Fine Structure for Catalysis Beamline of Singapore Synchrotron Light Source and the National Supercomputing Centre,Singapore;X.-X.Z.is thankful for the support of the Presidential Postdoctoral Fellowship,Nanyang Technological University,Singapore(03INS000973C150)。
Rational design and synthesis of catalytically active two-dimensional(2D)materials with an abundance of atomically precise active sites in their basal planes remains a great challenge.Here,we report a ligand exchange ...
关键词:EXFOLIATION NANOSHEET heterogeneous catalysis 
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