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Wenting Wu
Researcher at China University of Petroleum
Publications - 161
Citations - 7833
Wenting Wu is an academic researcher from China University of Petroleum. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 46, co-authored 140 publications receiving 6230 citations. Previous affiliations of Wenting Wu include Chinese Academy of Sciences & Argonne National Laboratory.
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Synthesis of nanocomposites with carbon–SnO2 dual-shells on TiO2 nanotubes and their application in lithium ion batteries
TL;DR: In this paper, the authors introduced well-distributed tin oxide nanocrystals on the surface of pre-prepared TiO2 nanotubes and carbon coating and synthesized novel TiO 2/SnO2/C double-shell nanotube have been synthesized.
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Synergistically enhanced activity of nitrogen-doped carbon dots/graphene composites for oxygen reduction reaction
Hui Liu,Qingshan Zhao,Jingyan Liu,Xiao Ma,Yuan Rao,Xiaodong Shao,Zhongtao Li,Wenting Wu,Hui Ning,Mingbo Wu +9 more
TL;DR: In this article, a mild hydrothermal strategy was developed to construct nitrogen-doped carbon dots/graphene (NCDs-NG) composites towards ORR, where carbon dots were derived from petroleum coke via acid oxidation while graphene oxide (GO) was obtained from graphite by modified Hummer's method.
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Graphene structure boosts electron transfer of dual-metal doped carbon dots in photooxidation
Zhang Qinggang,Wenming Xu,Congcong Han,Xiaokai Wang,Yixian Wang,Zhongtao Li,Wenting Wu,Mingbo Wu +7 more
TL;DR: In this paper, under different calcination temperature, carbon dots with various graphitization degrees were prepared from the mixture of EDTA-Fe and EDTA -Cu via a facile one-step pyrolysis.
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MnS decorated N/S codoped 3D graphene which used as cathode of the lithium-sulfur battery
TL;DR: A scale-upable MnS nanocrystal decorated N/S codoped graphene nanocomposite (MNSG) for Li-S batteries has been readily synthesized through hydrothermal process and followed by thermal treatment under N2 as mentioned in this paper.
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Spiral magnetic order and pressure-induced superconductivity in transition metal compounds.
TL;DR: A spiral spin order is revealed in MnP and its pressure evolution towards superconducting order is traced via measurements in a diamond anvil cell, Judging from the magnetostriction, ordered moments vanish at the quantum phase transition as pressure increases the electron kinetic energy.