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个人简介
Xiaoqing Pan is an internationally recognized materials scientist and electron microscopy expert due to his pioneering development and applications of novel transmission electron microscopy (TEM) methods for probing the atomic scale structure, properties and dynamic behaviors of materials. His work has led to the discoveries of new materials and novel functionalities. Pan has received the National Science Foundation’s CAREER Award and the Chinese NSF’s Outstanding Young Investigator Award. He is an elected fellow of the American Ceramic Society, American Physical Society, Microscopy Society of America, and the Materials Research Society. He has published over 400 peer-reviewed scientific papers in high impact journals such as Nature, Science, and Nature Materials and has a high citation rate.
Pan’s research focuses on the synthesis and atomic scale characterization of multifunctional materials with an emphasis on probing atomic scale structure and properties of material interfaces and nanostructures under controlled boundary conditions and environments. His group’s goal is to obtain a fundamental understanding of the atomic level structure-property relationships of nanoengineered materials, especially oxide heterostructures, ferroelectrics/multiferroics, nanocatalysts and two-dimensional (2D) functional materials. He is developing novel four-dimensional scanning transmission electron microscopy and momentum-resolved vibrational electron microscopy to probe atomic scale structure, chemical and physical properties of single atom catalysts, 2D strongly correlated oxides, ferroelectrics/multiferroics, and complex concentrated materials with multiple principal elements.
Pan’s research focuses on the synthesis and atomic scale characterization of multifunctional materials with an emphasis on probing atomic scale structure and properties of material interfaces and nanostructures under controlled boundary conditions and environments. His group’s goal is to obtain a fundamental understanding of the atomic level structure-property relationships of nanoengineered materials, especially oxide heterostructures, ferroelectrics/multiferroics, nanocatalysts and two-dimensional (2D) functional materials. He is developing novel four-dimensional scanning transmission electron microscopy and momentum-resolved vibrational electron microscopy to probe atomic scale structure, chemical and physical properties of single atom catalysts, 2D strongly correlated oxides, ferroelectrics/multiferroics, and complex concentrated materials with multiple principal elements.
研究兴趣
论文共 804 篇作者统计合作学者相似作者
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Bosi Peng,Zeyan Liu,Luca Sementa,Qingying Jia,Qiang Sun,Carlo U. Segre, Ershuai Liu,Mingjie Xu, Yu-Han (Joseph) Tsai,Xingxu Yan,Zipeng Zhao,Jin Huang,
Nature Catalysispp.1-11, (2024)
Yifan Ding,Tianran Yan,Jianghua Wu,Meng Tian, Miaoyu Lu,Conglei Xu, Jiaxi Gu,Haorui Zhao,Yifei Wang,Xiaoqing Pan,Shi Xue Dou,Liang Zhang,
APPLIED CATALYSIS B-ENVIRONMENT AND ENERGY (2024): 123553
Jingwei Li,Kejie Bao,Honglin Sun,Xingxu Yan,Ting Huang,Qicheng Zhang,Yaoqiang Zhou,Zhenjing Liu,Paul Masih Das,Jiawen You, Jiong Zhao, Jianbin Xu,
arxiv(2024)
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ADVANCED FUNCTIONAL MATERIALS (2024)
NATURE COMMUNICATIONSno. 1 (2024): 998-998
Nature communicationsno. 1 (2024): 3879-3879
Eamonn Murphy, Baiyu Sun,Martina Rüscher,Yuanchao Liu,Wenjie Zang,Shengyuan Guo, Yu-Han Chen,Uta Hejral,Ying Huang,Alvin Ly,Iryna V Zenyuk,Xiaoqing Pan,
Advanced materials (Deerfield Beach, Fla.)no. 27 (2024): e2401133-e2401133
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