His primary scientific interests are in Lithium, Inorganic chemistry, Electrochemistry, Ion and Nanotechnology. His research integrates issues of Hydrothermal circulation, Anode, Surface modification and Electrode material in his study of Lithium. In his study, Mesoporous material and Mesoporous organosilica is inextricably linked to Mesoporous titania, which falls within the broad field of Electrode material.
His Inorganic chemistry research is multidisciplinary, incorporating elements of Uranyl, Photochemistry, Nanocrystal, Catalysis and Lithium vanadium phosphate battery. His work carried out in the field of Electrochemistry brings together such families of science as Nanorod and Nanocomposite. In his study, Cyclic voltammetry, Micro nano and Reactivity is strongly linked to Porosity, which falls under the umbrella field of Nanotechnology.
Kai-Xue Wang focuses on Electrochemistry, Lithium, Anode, Nanotechnology and Inorganic chemistry. His study in Electrochemistry is interdisciplinary in nature, drawing from both Electrolyte, Carbon, Sodium and Porosity. His studies deal with areas such as Cathode, Oxide, Cyclic voltammetry and Surface modification as well as Lithium.
His biological study spans a wide range of topics, including Nanosheet, Calcination, Ion and Composite number, Composite material. His work deals with themes such as Hydrothermal circulation and Mesoporous material, which intersect with Nanotechnology. His Inorganic chemistry research integrates issues from Electrocatalyst, Zinc, Photochemistry, Catalysis and Lithium vanadium phosphate battery.
Kai-Xue Wang mostly deals with Electrochemistry, Anode, Cathode, Overpotential and Lithium. His studies deal with areas such as Composite number, Redox, Non-blocking I/O and Sodium as well as Electrochemistry. His Anode research integrates issues from Electrolyte, Ionic conductivity, Carbon nanotube, Calcination and Ion.
His Ion study incorporates themes from Nanotechnology and Germanium. His Cathode study combines topics from a wide range of disciplines, such as Heteroatom and Catalysis. His Heterojunction research extends to Lithium, which is thematically connected.
The scientist’s investigation covers issues in Anode, Lithium, Carbon, Overpotential and Composite number. His Anode study integrates concerns from other disciplines, such as Redox, Coating and Hydroxide. His study in Lithium is interdisciplinary in nature, drawing from both Nanotechnology, Diffusion barrier and Germanium.
Kai-Xue Wang has researched Carbon in several fields, including Porosity, Electrochemistry, Intercalation and Molybdenum disulfide. His Overpotential research is multidisciplinary, incorporating perspectives in Heterojunction, Lithium peroxide, Cathode, Oxygen and Oxygen evolution. Within one scientific family, Kai-Xue Wang focuses on topics pertaining to Sulfur under Composite number, and may sometimes address concerns connected to Membrane.
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The design of a LiFePO4/carbon nanocomposite with a core-shell structure and its synthesis by an in situ polymerization restriction method.
Yonggang Wang;Yarong Wang;Eiji Hosono;Kaixue Wang.
Angewandte Chemie (2008)
Isolated Diatomic Ni-Fe Metal-Nitrogen Sites for Synergistic Electroreduction of CO2.
Wenhao Ren;Xin Tan;Wanfeng Yang;Chen Jia.
Angewandte Chemie (2019)
Surface and Interface Engineering of Electrode Materials for Lithium‐Ion Batteries
Kai-Xue Wang;Xin-Hao Li;Jie-Sheng Chen.
Advanced Materials (2015)
Extended structures and physicochemical properties of uranyl-organic compounds.
Kai-Xue Wang;Jie-Sheng Chen.
Accounts of Chemical Research (2011)
Synthesis and electrochemical performance of nano-sized Li4Ti5O12 with double surface modification of Ti(III) and carbon
Yonggang Wang;Haimei Liu;Kaixue Wang;Hosono Eiji.
Journal of Materials Chemistry (2009)
Mesoporous Titania Nanotubes: Their Preparation and Application as Electrode Materials for Rechargeable Lithium Batteries
Kaixue Wang;Kaixue Wang;Mingdeng Wei;Michael A. Morris;Michael A. Morris;Haoshen Zhou;Haoshen Zhou.
Advanced Materials (2007)
Carbon-Coated V2O5 Nanocrystals as High Performance Cathode Material for Lithium Ion Batteries
Xiao-Fei Zhang;Kai-Xue Wang;Xiao Wei;Jie-Sheng Chen.
Chemistry of Materials (2011)
Hierarchical porous carbon derived from rice straw for lithium ion batteries with high-rate performance
Feng Zhang;Feng Zhang;Kai-Xue Wang;Guo-Dong Li;Jie-Sheng Chen;Jie-Sheng Chen.
Electrochemistry Communications (2009)
Hierarchical Bi2O2CO3 microspheres with improved visible-light-driven photocatalytic activity
Tianyu Zhao;Jiantao Zai;Miao Xu;Qiong Zou.
Highly Efficient Dehydrogenation of Formic Acid over a Palladium‐Nanoparticle‐Based Mott–Schottky Photocatalyst
Yi-Yu Cai;Xin-Hao Li;Ya-Nan Zhang;Xiao Wei.
Angewandte Chemie (2013)
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