Changwen Hu mostly deals with Inorganic chemistry, Nanotechnology, Catalysis, Nanostructure and Crystallography. His research integrates issues of Photocatalysis, Anatase, Nuclear chemistry, Mesoporous material and Aqueous solution in his study of Inorganic chemistry. His research investigates the link between Nanotechnology and topics such as Anode that cross with problems in Lithium and Electrochemistry.
His Catalysis study combines topics from a wide range of disciplines, such as Thermal decomposition, Methanol and Nitrogen. His Nanostructure study integrates concerns from other disciplines, such as Single crystal, Hydrothermal synthesis, Hydrothermal circulation, Nanorod and Microemulsion. His study in Crystallography is interdisciplinary in nature, drawing from both Stereochemistry and Crown ether.
His primary areas of investigation include Crystallography, Catalysis, Inorganic chemistry, Nanotechnology and Hydrothermal circulation. The various areas that Changwen Hu examines in his Crystallography study include Stereochemistry and Hydrogen bond. His study explores the link between Inorganic chemistry and topics such as Photocatalysis that cross with problems in Visible spectrum and Keggin structure.
His Nanotechnology study often links to related topics such as Anode. His Nanostructure course of study focuses on Nanorod and Selected area diffraction and Microemulsion. The study incorporates disciplines such as Hydrothermal synthesis and Infrared spectroscopy in addition to Crystal structure.
Changwen Hu mainly investigates Catalysis, Polyoxometalate, Organic chemistry, Polymer chemistry and Inorganic chemistry. Changwen Hu combines subjects such as Combinatorial chemistry, Sulfide and Oxygen evolution with his study of Catalysis. His Oxygen evolution research is multidisciplinary, incorporating elements of Overpotential and Nanotechnology.
His work in Nanotechnology addresses issues such as Hydrothermal circulation, which are connected to fields such as Nanosheet. Changwen Hu has included themes like Solid solution, Nanomaterial-based catalyst and Adsorption in his Inorganic chemistry study. As part of one scientific family, Changwen Hu deals mainly with the area of Powder diffraction, narrowing it down to issues related to the Scanning electron microscope, and often Crystallography.
Catalysis, Polyoxometalate, Organic chemistry, Inorganic chemistry and Heterogeneous catalysis are his primary areas of study. His research in Catalysis intersects with topics in Oxygen evolution, Nanotechnology, Infrared spectroscopy and X-ray photoelectron spectroscopy. As a part of the same scientific study, Changwen Hu usually deals with the Nanotechnology, concentrating on Tafel equation and frequently concerns with Layered double hydroxides, Nanowire, Hydrothermal circulation and Electrocatalyst.
His Polyoxometalate research includes elements of Photocatalysis, Oxide, Nanocomposite, Carbonate and Lewis acids and bases. His work on Sulfide, Sulfone, Sulfoxide and Mesoporous material as part of general Organic chemistry study is frequently linked to Sulfur mustard, therefore connecting diverse disciplines of science. His biological study spans a wide range of topics, including Bismuth, Photodegradation, Cationic polymerization, Alkali metal and Graphene.
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Superparamagnetic high-surface-area Fe3O4 nanoparticles as adsorbents for arsenic removal.
Liyun Feng;Minhua Cao;Xiaoyu Ma;Yongshuang Zhu.
Journal of Hazardous Materials (2012)
A controllable synthetic route to Cu, Cu2O, and CuO nanotubes and nanorods
Minhua Cao;Changwen Hu;Changwen Hu;Yonghui Wang;Yihang Guo.
Chemical Communications (2003)
Single‐Crystal Dendritic Micro‐Pines of Magnetic α‐Fe2O3: Large‐Scale Synthesis, Formation Mechanism, and Properties
Minhua Cao;Tianfu Liu;Song Gao;Genban Sun.
Angewandte Chemie (2005)
Fe3O4–Graphene Nanocomposites with Improved Lithium Storage and Magnetism Properties
Jing Su;Minhua Cao;Ling Ren;Changwen Hu.
Journal of Physical Chemistry C (2011)
Syntheses, structures, and photoluminescence of a novel class of d10 metal complexes constructed from pyridine-3,4-dicarboxylic acid with different coordination architectures.
Xinlong Wang;Chao Qin;Enbo Wang;Yangguang Li.
Inorganic Chemistry (2004)
Promoting nitrogen electroreduction to ammonia with bismuth nanocrystals and potassium cations in water
Yu-Chen Hao;Yu Guo;Li-Wei Chen;Miao Shu.
Nature Catalysis (2019)
Heterogeneous photocatalysis by solid polyoxometalates
Yihang Guo;Changwen Hu;Changwen Hu.
Journal of Molecular Catalysis A-chemical (2007)
Efficient degradation of dye pollutants on nanoporous polyoxotungstate–anatase composite under visible-light irradiation
Yu Yang;Qingyin Wu;Yihang Guo;Changwen Hu;Changwen Hu.
Journal of Molecular Catalysis A-chemical (2005)
Preparation of ultrahigh-aspect-ratio hydroxyapatite nanofibers in reverse micelles under hydrothermal conditions.
Minhua Cao;Yonghui Wang;Caixin Guo;Yanjuan Qi.
New two-dimensional metal-organic networks constructed from 1,2,4,5-benzenetetracarboxylate and chelate ligands.
Yangguang Li;Na Hao;Ying Lu;Enbo Wang.
Inorganic Chemistry (2003)
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