Recently, the team of Professor Liu Chenguang in our College of Chemical Engineering has made new progress in the research of efficienttransition metal sulfides electro catalytic oxygen catalyst. The research result “NiSe@NiOOHCore-shell Hyacinth-like Nanostructures on Nickel Foam Synthesized by in Situ Electrochemical Oxidation as an Efficient Electrocatalyst for the Oxygen Evolution Reaction” was published in the international well-known academic journal ----ACS Applied Materials & Interfaces (Impact Factor 7.145,SCI SectionI TOP)
The first author of this paper is Li Xiao, who is the master of chemical engineering of 2014. Professor Dong Bin and Professor Liu Chenguang are corresponding authors. The first complete unit is the State Key Laboratory of heavy oil in China University of Petroleum (Hua Dong).
Water electrolysis oxygen is the key technology of solar photovoltaic production, is currently a hot research in the field of new energy, including high activity, low cost oxygen catalyst which plays a key role in the industrial application of water electrolysis technology. Transition-metal sulfide is currently the most potential efficient hydrogen oxygen catalyst, but the control of the nanostructureand the simple synthesis are the main factors which restrict the high activity transition-metal sulfide catalysts. Professor Liu Chenguang and Associate Professor Dong Bin designed this special NiSenanorodon Nickel Foam, combined with Situ Electrochemical Oxidation, and synthesized a newefficient“NiSe@NiOOHCore-shell Hyacinth-like Nanostructures. The unique morphology and nanostructuresof the catalyst can fully expose more catalytic active sites, and provide more excellent electronic transmission and structural stability.The results provide a useful reference for structure designand simple synthesis ofhigh performance, low cost transition-metal sulfide oxygen catalyst.
ACSAppliedMaterials&Interfaceswas founded in 2009 by American Chemical Society, which mainly publishes those original and outstanding research results in chemistry, energy, catalysis, biology, physics, and interdisciplinary fields. In 2005 the impact factor was up to 7.145 and the section I TOP journal in SCI. The collection of research papers in the relevant areas has a high impact, and the scientific research papers collected are of high impact.
