Lin Xu mainly focuses on Nanowire, Nanotechnology, Electrochemistry, Chemical engineering and Inorganic chemistry. Her Nanowire study integrates concerns from other disciplines, such as Chip and Nanostructure. She combines subjects such as Microscope, Signal and Detector with her study of Nanotechnology.
Her Sodium-ion battery study in the realm of Electrochemistry interacts with subjects such as Nanomaterials, Carbon, Acetylene and Sodium. Her Chemical engineering investigation overlaps with other disciplines such as Vanadium oxide and Energy storage. A majority of her Supercapacitor research is a blend of other scientific areas, such as X-ray crystallography, Heterojunction and Electric Capacitance.
Nanotechnology, Nanowire, Electrochemistry, Chemical engineering and Lithium are her primary areas of study. Lin Xu interconnects Nanoscopic scale, Signal and Nanosensor in the investigation of issues within Nanowire. Her work investigates the relationship between Electrochemistry and topics such as Energy storage that intersect with problems in Electrode material.
Her work on Nanostructure as part of general Chemical engineering study is frequently linked to Inorganic chemistry, bridging the gap between disciplines. In her study, Electrochemical energy storage is strongly linked to Battery, which falls under the umbrella field of Lithium. Her Supercapacitor study combines topics in areas such as Ionic bonding and Ionic diffusion.
Lin Xu mainly investigates Energy storage, Lithium, Battery, Electrochemical energy storage and Nanowire. Her research combines Electrode material and Energy storage. When carried out as part of a general Battery research project, her work on Battery electrode is frequently linked to work in Biochemical engineering, therefore connecting diverse disciplines of study.
Electrochemical energy storage is a primary field of her research addressed under Supercapacitor. Nanowire is a subfield of Nanotechnology that Lin Xu investigates. Her Nanotechnology study frequently intersects with other fields, such as Signal.
Li-Qiang Mai;Fan Yang;Yun-Long Zhao;Xu Xu
Jiashen Meng;Chaojiang Niu;Linhan Xu;Jiantao Li
Liqiang Mai;Xiaocong Tian;Xu Xu;Liang Chang
Liqiang Mai;Liqiang Mai;Lin Xu;Chunhua Han;Xu Xu
Lin Xu;Shun Tang;Yu Cheng;Kangyan Wang
Shuo Li;Yifan Dong;Lin Xu;Lin Xu;Xu Xu
Chaojiang Niu;Jiashen Meng;Xuanpeng Wang;Chunhua Han
Guangmin Zhou;Guangmin Zhou;Lin Xu;Guangwu Hu;Liqiang Mai
Zhaoyang Wang;Lin Xu;Fuzhi Huang;Longbing Qu
Zhengyang Cai;Lin Xu;Lin Xu;Mengyu Yan;Chunhua Han
Yunlong Zhao;Lin Xu;Liqiang Mai;Chunhua Han
Jiantao Li;Wenzhong Huang;Manman Wang;Shibo Xi
Jiashen Meng;Haichang Guo;Chaojiang Niu;Yunlong Zhao
Quan Qing;Zhe Jiang;Lin Xu;Ruixuan Gao
Zhenhui Liu;Doudou Guan;Qiang Yu;Lin Xu
Unknown
Qiulong Wei;Qinyou An;Dandan Chen;Liqiang Mai
Liqiang Mai;Qiulong Wei;Qinyou An;Xiaocong Tian
Liqiang Mai;Han Li;Yunlong Zhao;Lin Xu;Lin Xu
Kesong Yu;Xuelei Pan;Guobin Zhang;Xiaobin Liao
Mengyu Yan;Fengchao Wang;Chunhua Han;Xinyu Ma
Liqiang Mai;Liqiang Mai;Lin Xu;Qian Gao;Chunhua Han
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National Institute for Materials Science
Max Planck Society
North Carolina State University
University of Cologne
German Cancer Research Center
University of Tokyo
Tsinghua University
National Institute of Geophysics and Volcanology
University of Cambridge
University of Rochester
University of Insubria
University of Milan
International Monetary Fund
Universidade do Extremo Sul Catarinense
Queen's University
Texas Christian University
