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2162-8726/2015/4(4)/H5/5/$33.00 © The Electrochemical Society Facile Synthesis of One-Dimensional MoOx-Based Nanostructure for Electrocatalytic Hydrogen Evolution Yan-Ru Liu,a Wen-Hui Hu,a Guan-Qun Han,a,b Bin Dong,a,b,z Yong-Ming Chai,a Yun-Qi Liu,a
, 2014
"... Novel one-dimensional Mo3O10(C6H8N)2 · 2H2O nanobelt have been prepared by a facile method. SEM and TEM show Mo3O10(C6H8N)2 · 2H2O has 1D nanobelt morphology and good dispersion. The Mo3O10(C6H8N)2 · 2H2O nanobelt can prevent the reaction of Mo3O102 − with the proton and improve the conductivity bec ..."
Abstract
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Novel one-dimensional Mo3O10(C6H8N)2 · 2H2O nanobelt have been prepared by a facile method. SEM and TEM show Mo3O10(C6H8N)2 · 2H2O has 1D nanobelt morphology and good dispersion. The Mo3O10(C6H8N)2 · 2H2O nanobelt can prevent the reaction of Mo3O102 − with the proton and improve the conductivity because of 1D structure and the composition of (C6H8N)2 molecules. After being measured the properties for hydrogen evolution reaction, 1D Mo3O10(C6H8N)2 · 2H2O demonstrates better electrocatalytic activity and stability for in acidic electrolyte compared with MoO3. It can be speculated that both 1D nanostructure and amine coating on Mo3O10(C6H8N)2 · 2H2O nanobelt play crucial role for improving the electrocatalytic activity.
