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Wenjie Tian
Researcher at University of Adelaide
Publications - 59
Citations - 3210
Wenjie Tian is an academic researcher from University of Adelaide. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 22, co-authored 42 publications receiving 1686 citations. Previous affiliations of Wenjie Tian include Colorado School of Mines & Shandong University.
Papers
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0D (MoS2)/2D (g-C3N4) heterojunctions in Z-scheme for enhanced photocatalytic and electrochemical hydrogen evolution
Yazi Liu,Huayang Zhang,Jun Ke,Jinqiang Zhang,Wenjie Tian,Xinyuan Xu,Xiaoguang Duan,Hongqi Sun,Moses O. Tadé,Shaobin Wang +9 more
TL;DR: MoS2 quantum dots (MSQDs) with high and stable dispersion in water were prepared via a facile one-pot hydrothermal process as discussed by the authors, and the MSQDs were then applied to decorate graphitic carbon nitride (g-C3N4, CN) nanosheets to obtain modified g-C 3N4 photocatalysts.
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Porous carbons: Structure-oriented design and versatile applications
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Nitrogen- and Sulfur-Codoped Hierarchically Porous Carbon for Adsorptive and Oxidative Removal of Pharmaceutical Contaminants
TL;DR: Heteroatom (nitrogen and sulfur)-codoped porous carbons with high surface areas and hierarchically porous structures were successfully synthesized via direct pyrolysis of a mixture of glucose, sodium bicarbonate, and thiourea to provide heteroatom-doped PCs for energy applications.
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Boosting Fenton-Like Reactions via Single Atom Fe Catalysis
Yu Yin,Yu Yin,Yu Yin,Lei Shi,Wenlang Li,Xuning Li,Hong Wu,Zhimin Ao,Wenjie Tian,Shaomin Liu,Shaobin Wang,Hongqi Sun +11 more
TL;DR: It was found that the single atom SAFe-SBA catalysts displayed superior catalytic activity to aggregated iron sites (AGFe-S BA) in both HBA and phenol degradation, demonstrating the advantage of SAFe -SBA in catalysis.
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Bread-making synthesis of hierarchically Co@C nanoarchitecture in heteroatom doped porous carbons for oxidative degradation of emerging contaminants
Wenjie Tian,Huayang Zhang,Zhao Qian,Tianhong Ouyang,Hongqi Sun,Jingyu Qin,Moses O. Tadé,Shaobin Wang +7 more
TL;DR: In this article, a facile one-pot pyrolysis strategy for homogeneous assembly of core-shell Co@C nanoparticles with nitrogen and sulfur into hierarchically porous carbons (Co-N-S-PCs) was presented.