Xiangwen Zhang mostly deals with Photocatalysis, Chemical engineering, Nanotechnology, Inorganic chemistry and Catalysis. His Photocatalysis research is multidisciplinary, relying on both Photochemistry, Semiconductor and X-ray photoelectron spectroscopy. He interconnects Coke, Methacrylate, Adsorption and Gibbs free energy in the investigation of issues within Chemical engineering.
His studies deal with areas such as Oxygen evolution, Electrochemistry and Water splitting as well as Nanotechnology. His work carried out in the field of Inorganic chemistry brings together such families of science as Dodecane, Metal and Calcination. His work deals with themes such as Hydrogen and Supercritical fluid, which intersect with Catalysis.
His main research concerns Catalysis, Chemical engineering, Inorganic chemistry, Hydrocarbon and Organic chemistry. His research combines Cracking and Catalysis. His Chemical engineering research integrates issues from Photocatalysis, Jet fuel, Mesoporous material, Coating and Supercritical fluid.
His Photocatalysis research is multidisciplinary, incorporating elements of Photochemistry and X-ray photoelectron spectroscopy. His Inorganic chemistry study combines topics in areas such as Hydrogen, Lewis acids and bases, Adsorption, Metal and Calcination. In Hydrocarbon, Xiangwen Zhang works on issues like Pyrolysis, which are connected to Analytical chemistry.
Chemical engineering, Catalysis, Jet fuel, Hydrocarbon and Selectivity are his primary areas of study. Chemical engineering and Freezing point are two areas of study in which Xiangwen Zhang engages in interdisciplinary research. Hydrodeoxygenation is the focus of his Catalysis research.
Xiangwen Zhang combines subjects such as Molecule, Endothermic process and Pyrolysis with his study of Hydrocarbon. The concepts of his Selectivity study are interwoven with issues in Inorganic chemistry, Microporous material, Brønsted–Lowry acid–base theory and Electrochemistry. Xiangwen Zhang has included themes like Electrocatalyst and Overpotential in his Adsorption study.
His primary areas of investigation include Chemical engineering, Catalysis, Electrochemistry, Yield and Adsorption. His Chemical engineering study integrates concerns from other disciplines, such as Hydrogen production, Hydrogen, Steam reforming, Single crystal and Calcination. He works in the field of Catalysis, namely Selectivity.
His Selectivity research includes elements of Inorganic chemistry, Microporous material, Electrochemical reduction of carbon dioxide and Copper. His Nafion study in the realm of Electrochemistry connects with subjects such as Fluoroelastomer. The study incorporates disciplines such as Oxide and Overpotential in addition to Adsorption.
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Electrocatalytic oxygen evolution reaction for energy conversion and storage: A comprehensive review
Muhammad Tahir;Muhammad Tahir;Lun Pan;Lun Pan;Faryal Idrees;Xiangwen Zhang.
Nano Energy (2017)
Electrocatalysts for Hydrogen Evolution in Alkaline Electrolytes: Mechanisms, Challenges, and Prospective Solutions
Nasir Mahmood;Nasir Mahmood;Yunduo Yao;Jing-Wen Zhang;Lun Pan.
Advanced Science (2018)
When Cubic Cobalt Sulfide Meets Layered Molybdenum Disulfide: A Core–Shell System Toward Synergetic Electrocatalytic Water Splitting
Han Zhu;Junfeng Zhang;Ruoping Yanzhang;Mingliang Du.
Advanced Materials (2015)
Hollow Cobalt-Based Bimetallic Sulfide Polyhedra for Efficient All-pH-Value Electrochemical and Photocatalytic Hydrogen Evolution.
Zhen-Feng Huang;Jiajia Song;Ke Li;Muhammad Tahir.
Journal of the American Chemical Society (2016)
Carbon nitride with simultaneous porous network and O-doping for efficient solar-energy-driven hydrogen evolution
Zhen-Feng Huang;Jiajia Song;Lun Pan;Ziming Wang.
Nano Energy (2015)
Titanium-Defected Undoped Anatase TiO2 with p-Type Conductivity, Room-Temperature Ferromagnetism, and Remarkable Photocatalytic Performance
Songbo Wang;Lun Pan;Jia-Jia Song;Wenbo Mi.
Journal of the American Chemical Society (2015)
Nanostructured bismuth vanadate-based materials for solar-energy-driven water oxidation: a review on recent progress.
Zhen-Feng Huang;Lun Pan;Ji-Jun Zou;Xiangwen Zhang.
Tungsten Oxides for Photocatalysis, Electrochemistry, and Phototherapy.
Zhen-Feng Huang;Jiajia Song;Lun Pan;Xiangwen Zhang.
Advanced Materials (2015)
Review on selective hydrogenation of nitroarene by catalytic, photocatalytic and electrocatalytic reactions
Jiajia Song;Zhen-Feng Huang;Lun Pan;Ke Li.
Applied Catalysis B-environmental (2018)
Switching charge transfer of C3N4/W18O49 from type-II to Z-scheme by interfacial band bending for highly efficient photocatalytic hydrogen evolution
Zhen-Feng Huang;Zhen-Feng Huang;Jiajia Song;Xin Wang;Lun Pan;Lun Pan.
Nano Energy (2017)
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