Wu Xu focuses on Electrolyte, Inorganic chemistry, Anode, Lithium and Chemical engineering. Electrolyte is a subfield of Electrode that Wu Xu tackles. His Inorganic chemistry research is multidisciplinary, relying on both Lithium peroxide, Solubility, Ionic liquid and Flow battery.
The study incorporates disciplines such as Cathode, Nanotechnology and Specific energy in addition to Anode. His work on Lithium vanadium phosphate battery as part of general Lithium research is often related to X-ray crystallography, thus linking different fields of science. His research investigates the link between Electrochemistry and topics such as Alkyl that cross with problems in Analytical chemistry.
Wu Xu spends much of his time researching Electrolyte, Lithium, Chemical engineering, Inorganic chemistry and Anode. The concepts of his Electrolyte study are interwoven with issues in Cathode, Electrochemistry and Metal. He interconnects Nanotechnology, Solvent and Analytical chemistry in the investigation of issues within Lithium.
Wu Xu works mostly in the field of Chemical engineering, limiting it down to topics relating to Redox and, in certain cases, Aqueous solution and Solubility, as a part of the same area of interest. His Inorganic chemistry research focuses on Ionic conductivity and how it relates to Polyelectrolyte and Polymer chemistry. His Anode research incorporates themes from Composite number, Composite material, Corrosion and Silicon.
His main research concerns Electrolyte, Chemical engineering, Lithium, Anode and Cathode. Wu Xu works mostly in the field of Electrolyte, limiting it down to concerns involving Inorganic chemistry and, occasionally, Oxygen. His work carried out in the field of Chemical engineering brings together such families of science as Lithium-ion battery, Metal, Oxide cathode and Nickel.
Wu Xu interconnects Solvation, Atmospheric temperature range, Optoelectronics, Diluent and Electrochemistry in the investigation of issues within Lithium. His study looks at the intersection of Anode and topics like Specific energy with Nanoscopic scale. Wu Xu has included themes like Transition metal and Electronics in his Cathode study.
His scientific interests lie mostly in Electrolyte, Lithium, Chemical engineering, Anode and Electrode. His study ties his expertise on Inorganic chemistry together with the subject of Electrolyte. His Lithium research includes themes of Optoelectronics, Fast charging, Atmospheric temperature range and High voltage.
His work in the fields of Chemical engineering, such as Transmission electron microscopy, intersects with other areas such as Interphase. The concepts of his Anode study are interwoven with issues in Specific energy, Electrochemistry, Nanotechnology and Oxygen. Within one scientific family, Wu Xu focuses on topics pertaining to Lithium-ion battery under Electrode, and may sometimes address concerns connected to Secondary ion mass spectrometry, Layer and Mass spectrometry.
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Lithium metal anodes for rechargeable batteries
Wu Xu;Jiulin Wang;Jiulin Wang;Fei Ding;Xilin Chen.
Energy and Environmental Science (2014)
High rate and stable cycling of lithium metal anode
Jiangfeng Qian;Wesley A. Henderson;Wu Xu;Priyanka Bhattacharya.
Nature Communications (2015)
Dendrite-Free Lithium Deposition via Self-Healing Electrostatic Shield Mechanism
Fei Ding;Wu Xu;Gordon L. Graff;Jian Zhang.
Journal of the American Chemical Society (2013)
In Situ Observation of the Electrochemical Lithiation of a Single SnO2 Nanowire Electrode
Jian Yu Huang;Li Zhong;Chong Min Wang;John P. Sullivan.
Pathways for practical high-energy long-cycling lithium metal batteries
Jun Liu;Zhenan Bao;Yi Cui;Eric J. Dufek.
Nature Energy (2019)
Ionic Liquids by Proton Transfer: Vapor Pressure, Conductivity, and the Relevance of ΔpKa from Aqueous Solutions
Masahiro Yoshizawa;Masahiro Yoshizawa;Wu Xu;Charles Angell.
Journal of the American Chemical Society (2003)
Ionic liquids: Ion mobilities, glass temperatures, and fragilities
Wu Xu;Emanuel I. Cooper;C. Austen Angell.
Journal of Physical Chemistry B (2003)
Hierarchically porous graphene as a lithium-air battery electrode.
Jie Xiao;Donghai Mei;Xiaolin Li;Wu Xu.
Nano Letters (2011)
Electrolyte additive enabled fast charging and stable cycling lithium metal batteries
Jianming Zheng;Mark H. Engelhard;Donghai Mei;Shuhong Jiao.
Nature Energy (2017)
Advancing Lithium Metal Batteries
Bin Liu;Ji-Guang Zhang;Wu Xu.
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