F
Feng Tian
Researcher at University of Shanghai for Science and Technology
Publications - 16
Citations - 519
Feng Tian is an academic researcher from University of Shanghai for Science and Technology. The author has contributed to research in topics: Nanorod & Photocatalysis. The author has an hindex of 9, co-authored 12 publications receiving 453 citations. Previous affiliations of Feng Tian include Shanghai University.
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Journal ArticleDOI
Unidirectional suppression of hydrogen oxidation on oxidized platinum clusters
Yu Hang Li,Jun Xing,Zong Jia Chen,Zhen Li,Feng Tian,Lirong Zheng,Haifeng Wang,Peijun Hu,Peijun Hu,Huijun Zhao,Hua Gui Yang,Hua Gui Yang +11 more
TL;DR: It is reported that the unidirectional suppression of hydrogen oxidation in photocatalytic water splitting can be fulfilled by controlling the valence state of platinum; this platinum-based cocatalyst in a higher oxidation state can act as an efficient hydrogen evolution site while suppressing the undesirable hydrogen back-oxidation.
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One-pot synthesis of diiron phosphide/nitrogen-doped graphene nanocomposite for effective hydrogen generation
TL;DR: In this article, a nanocomposite comprising diiron phosphide (Fe2P) nanoparticles and nitrogen-doped graphene (NGr) was synthesized by a facile one-pot reaction.
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Enhanced photoelectrochemical hydrogen production using silicon nanowires@MoS3
TL;DR: In this article, the composite of silicon nanowires and MoS 3 (SiNWs@MoS 3 ) was fabricated by a convenient method, and it exhibited remarkably enhanced photocurrent during photoelectrochemical hydrogen production.
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Liposomes self-assembled from electrosprayed composite microparticles
TL;DR: The developed strategy provides a new, facile, and effective method to assemble and organize molecules of multiple components into liposomes with electrosprayed microparticles as templates, but also opens a new avenue for nanofabrication in a step-by-step and controllable way.
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Ultrathin SnO2 Scaffolds for TiO2‐Based Heterojunction Photoanodes in Dye‐Sensitized Solar Cells: Oriented Charge Transport and Improved Light Scattering
TL;DR: 2D ultrathin nanosheets provide rapid transit pathways and improved light-scattering centers, which can ensure a sufficient amount of dye loading and slow recombination, and a significant reduction in the charge diffusion route compared to the conventional isotropic "random walk" model.