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Wei Ding
Researcher at Chongqing University
Publications - 88
Citations - 5260
Wei Ding is an academic researcher from Chongqing University. The author has contributed to research in topics: Catalysis & Electrocatalyst. The author has an hindex of 32, co-authored 81 publications receiving 3852 citations. Previous affiliations of Wei Ding include Google.
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Journal ArticleDOI
Space-confinement-induced synthesis of pyridinic- and pyrrolic-nitrogen-doped graphene for the catalysis of oxygen reduction
Wei Ding,Zidong Wei,Siguo Chen,Xueqiang Qi,Tao Yang,Jin-Song Hu,Dong Wang,Li-Jun Wan,Shahnaz Fatima Alvi,Li Li +9 more
TL;DR: A novel strategy for the selective synthesis of pyridinic and pyrrolic N atoms and fewer quaternary N atoms is presented, which can enhance the activity of NC materials with sufficient active species that favor ORR and through an increase in electrical conductivity.
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Shape Fixing via Salt Recrystallization: A Morphology-Controlled Approach To Convert Nanostructured Polymer to Carbon Nanomaterial as a Highly Active Catalyst for Oxygen Reduction Reaction
TL;DR: A "shape fixing via salt recrystallization" method to efficiently synthesize nitrogen-doped carbon material with a large number of active sites exposed to the three-phase zones, for use as an ORR catalyst, making this among the best nonprecious metal catalysts for the ORR reported so far.
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An extraordinarily stable catalyst: Pt NPs supported on two-dimensional Ti3C2X2 (X = OH, F) nanosheets for oxygen reduction reaction.
TL;DR: Electro-chemical measurements confirm that the Pt/Ti3C2X2 catalyst shows enhanced durability and improved ORR activity compared with the commercial Pt/C catalyst.
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Insight into the Effect of Oxygen Vacancy Concentration on the Catalytic Performance of MnO2
Li Li,Xianghong Feng,Yao Nie,Siguo Chen,Feng Shi,Kun Xiong,Wei Ding,Xueqiang Qi,Jin-Song Hu,Zidong Wei,Li-Jun Wan,Meirong Xia +11 more
TL;DR: In this article, a DFT+U calculation was performed on the electronic structure and catalytic performance of a β-MnO2 catalyst for the oxygen reduction reaction (ORR) with different numbers and extents of OVs.
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Ni-doped Mo2C nanowires supported on Ni foam as a binder-free electrode for enhancing the hydrogen evolution performance
TL;DR: In this paper, an inexpensive electrocatalyst, Ni-doped Mo2C nanowires, were grown directly on Ni foam via a hydrothermal reaction combined with a carburization process.