His primary scientific interests are in Nanotechnology, Monolayer, Graphene, Inorganic chemistry and Condensed matter physics. He has researched Nanotechnology in several fields, including Carbon, Electrochemistry, Chemical engineering and Doping. His studies deal with areas such as Chemical physics, Molecule and Energy storage as well as Graphene.
His Inorganic chemistry study incorporates themes from Boron nitride, Nanotube, Adsorption, Metal and Binding energy. His research integrates issues of Electric field and Semiconductor in his study of Condensed matter physics. In the subject of general Band gap, his work in Phosphorene is often linked to Zigzag, thereby combining diverse domains of study.
His primary areas of study are Artificial intelligence, Pattern recognition, Terahertz radiation, Optoelectronics and Colorectal cancer. Artificial intelligence is often connected to Computer vision in his work. His Pattern recognition research incorporates elements of Image processing, Representation, Facial recognition system, Face and Cluster analysis.
His Terahertz radiation study integrates concerns from other disciplines, such as Lithium niobate, Optical rectification and Laser, Femtosecond. His study in Optoelectronics is interdisciplinary in nature, drawing from both Ultrashort pulse, Polarization and Electric field. His Colorectal cancer study combines topics from a wide range of disciplines, such as Survival rate, Surgery, Chemotherapy and Stage.
Artificial intelligence, Terahertz radiation, Optoelectronics, Chemical engineering and Pattern recognition are his primary areas of study. His research links Computer vision with Artificial intelligence. Xiaojun Wu combines subjects such as Spectroscopy, Lithium niobate, Common emitter and Metamaterial with his study of Terahertz radiation.
His Chemical engineering research incorporates themes from Cathode, Anode, Catalysis, Energy storage and Electrochemistry. The concepts of his Catalysis study are interwoven with issues in Oxygen evolution and Overpotential. His studies in Pattern recognition integrate themes in fields like Representation and Focus.
His primary areas of investigation include Chemical engineering, Artificial intelligence, Anode, Terahertz radiation and Optoelectronics. The various areas that Xiaojun Wu examines in his Chemical engineering study include Catalysis, Reaction mechanism, Energy storage, Electrical conductor and Electrochemistry. His Electrochemistry research includes themes of Carbon, Alkali metal and Molybdenum.
Artificial intelligence connects with themes related to Pattern recognition in his study. His research in Terahertz radiation tackles topics such as Lithium niobate which are related to areas like Nonlinear optics, Spectroscopy and Terahertz time-domain spectroscopy. His work carried out in the field of Optoelectronics brings together such families of science as Infrared and Pulse duration.
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The anodic dissolution of magnesium in chloride and sulphate solutions
G. Song;G. Song;A. Atrens;D.St John;X. Wu.
Corrosion Science (1997)
Metallic nickel nitride nanosheets realizing enhanced electrochemical water oxidation.
Kun Xu;Pengzuo Chen;Xiuling Li;Yun Tong.
Journal of the American Chemical Society (2015)
Phosphorene nanoribbons, nanotubes and van der Waals multilayers
Hongyan Guo;Ning Lu;Jun Dai;Xiaojun Wu.
arXiv: Mesoscale and Nanoscale Physics (2014)
Phosphorene Nanoribbons, Phosphorus Nanotubes, and van der Waals Multilayers
Hongyan Guo;Hongyan Guo;Ning Lu;Ning Lu;Jun Dai;Xiaojun Wu.
Journal of Physical Chemistry C (2014)
Two-Dimensional Boron Monolayer Sheets
Xiaojun Wu;Jun Dai;Yu Zhao;Zhiwen Zhuo.
ACS Nano (2012)
Exclusive Ni-N4 Sites Realize Near-Unity CO Selectivity for Electrochemical CO2 Reduction.
Xiaogang Li;Wentuan Bi;Minglong Chen;Yuexiang Sun.
Journal of the American Chemical Society (2017)
Cobalt in Nitrogen-Doped Graphene as Single-Atom Catalyst for High-Sulfur Content Lithium–Sulfur Batteries
Zhenzhen Du;Xingjia Chen;Wei Hu;Chenghao Chuang.
Journal of the American Chemical Society (2019)
Strain-dependent electronic and magnetic properties of MoS2 monolayer, bilayer, nanoribbons and nanotubes.
Peng Lu;Peng Lu;Xiaojun Wu;Wanlin Guo;Xiao Cheng Zeng.
Physical Chemistry Chemical Physics (2012)
The sixth visual object tracking VOT2018 challenge results
Matej Kristan;Aleš Leonardis;Jiří Matas;Michael Felsberg.
european conference on computer vision (2019)
ADMINISTRATION OF LACTOBACILLUS HELVETICUS NS8 IMPROVES BEHAVIORAL, COGNITIVE, AND BIOCHEMICAL ABERRATIONS CAUSED BY CHRONIC RESTRAINT STRESS
S. Liang;T. Wang;X. Hu;J. Luo.
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