His scientific interests lie mostly in Battery, Anode, Lithium, Inorganic chemistry and Nanotechnology. His Battery study integrates concerns from other disciplines, such as Sulfur, Electrode and Porous medium. His work deals with themes such as Nanowire, Nanocomposite, Chemical engineering and Metal, which intersect with Anode.
Jie Xiao has researched Lithium in several fields, including Cathode and Analytical chemistry. His Inorganic chemistry research incorporates themes from Lithium battery and Diffusion. His studies in Nanotechnology integrate themes in fields like Lithium–air battery, Supercapacitor, Composite material and Energy storage.
Jie Xiao spends much of his time researching Electrolyte, Lithium, Cathode, Chemical engineering and Anode. His studies deal with areas such as Inorganic chemistry and Battery as well as Electrolyte. Jie Xiao interconnects Nanotechnology, Sulfur and Energy storage in the investigation of issues within Battery.
His study in the field of Nanoarchitectures for lithium-ion batteries also crosses realms of Energy density. His Cathode research integrates issues from Scanning transmission electron microscopy, Lithium-ion battery, Spinel, Analytical chemistry and Electrochemistry. His research integrates issues of Layer, Polysulfide and Coating in his study of Chemical engineering.
Jie Xiao focuses on Cathode, Battery, Electrolyte, Lithium metal and Chemical engineering. Jie Xiao combines subjects such as Chemical physics, Transition metal, Electrochemistry, Electrode and Composite material with his study of Cathode. His research in Electrolyte intersects with topics in Anode, Sulfur and Energy storage.
His studies in Anode integrate themes in fields like Separator, Inorganic chemistry, Mixing, Adsorption and Metal. His Lithium metal study is concerned with the larger field of Lithium. His Chemical engineering research is multidisciplinary, relying on both Phase transition, Polyethylene oxide, Polymer and Aqueous electrolyte.
His main research concerns Lithium metal, Nanotechnology, Cathode, Battery and Chemical engineering. Jie Xiao has included themes like Metal anode and Lithium in his Nanotechnology study. Electrolyte and Anode are closely tied to his Metal anode research.
His Cathode research integrates issues from Composite material, Microstructure, Overpotential and Crystallite. His Battery study integrates concerns from other disciplines, such as Faraday efficiency, Polysulfide, Sulfur and Dissolution. The Chemical engineering study which covers Phase transition that intersects with Electrochemistry.
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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)
Sodium ion insertion in hollow carbon nanowires for battery applications.
Yuliang Cao;Lifen Xiao;Lifen Xiao;Maria L. Sushko;Wei Wang.
Nano Letters (2012)
Pathways for practical high-energy long-cycling lithium metal batteries
Jun Liu;Zhenan Bao;Yi Cui;Eric J. Dufek.
Nature Energy (2019)
Hierarchically porous graphene as a lithium-air battery electrode.
Jie Xiao;Donghai Mei;Xiaolin Li;Wu Xu.
Nano Letters (2011)
A Soft Approach to Encapsulate Sulfur: Polyaniline Nanotubes for Lithium‐Sulfur Batteries with Long Cycle Life
Lifen Xiao;Yuliang Cao;Yuliang Cao;Jie Xiao;Birgit Schwenzer.
Advanced Materials (2012)
Nanostructured carbon for energy storage and conversion
Stephanie L. Candelaria;Yuyan Shao;Wei Zhou;Xiaolin Li.
Nano Energy (2012)
Formation Of The Spinel Phase In The Layered Composite Cathode Used In Li-Ion Batteries
Meng Gu;Ilias Belharouak;Jianming Zheng;Huiming Wu.
ACS Nano (2013)
Exfoliated MoS2 Nanocomposite as an Anode Material for Lithium Ion Batteries
Jie Xiao;Daiwon Choi;Lelia Cosimbescu;Phillip K. Koech.
Chemistry of Materials (2010)
Failure Mechanism for Fast‐Charged Lithium Metal Batteries with Liquid Electrolytes
Dongping Lu;Yuyan Shao;Terence J. Lozano;Wendy D. Bennett.
Advanced Energy Materials (2015)
High capacity, reversible alloying reactions in SnSb/C nanocomposites for Na-ion battery applications
Lifen Xiao;Lifen Xiao;Yuliang Cao;Yuliang Cao;Jie Xiao;Wei Wang.
Chemical Communications (2012)
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