17 Papers
Yu Bi is an academic researcher from Beijing Institute of Technology. The author has contributed to research in topics: Chemistry & Catalysis. The author has an hindex of 1, co-authored 2 publications.
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Papers
Full-spectrum broad-spectrum degradation of antibiotics by BiVO4@BiOCl crystal plane S-type and Z-type heterojunctions
Qianru Yang,Guoqiang Tan,Li Xiong Yin,Wenlong Liu,Bixin Zhang,Shuaijun Feng,Yu Bi,Ying Liu,Tian Liu,Zeqiong Wang,Huijun Ren,Aolin Xia +11 more
TL;DR: In this paper , a photodeposited crystal plane selectively induce method was used to nucleate the strong reduction-capable BiOCl on BiVO4 (0 1 0) crystal planes in the heterogeneous phase and the OVs-BiOcl on Bi VO4 (1 1 0)-surface planes in homogeneous phase.
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Cs0.33WO3/(t-m)-BiVO4 double Z-type heterojunction photothermal synergistic enhanced full-spectrum degradation of antibiotics
Qian Yang,Guoqiang Tan,Bixin Zhang,Shuaijun Feng,Yu Bi,Zeqiong Wang,Aolin Xia,Huijun Ren,Wenlong Liu +8 more
TL;DR: In this paper , a double Z-type heterojunction photocatalyst with photodeposition method and Cs0.33WO3 photothermal effect was used for environmental purification.
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Magnetically controllable metasurface and its application
TL;DR: In this article, the basic principles of the Faraday and Kerr effect of magneto-optical (MO) materials are introduced and the physical mechanism of different MO metasurfaces that combine the MO effect with plasmonic or dielectric resonance.
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Dual Localized Surface Plasmon Resonance effect enhances Nb2AlC/Nb2C MXene thermally coupled photocatalytic reduction of CO2 hydrogenation activity.
Tian Liu,Guoqiang Tan,Shuaijun Feng,Bixin Zhang,Yang Liu,Zeqiong Wang,Yu Bi,Qianru Yang,Aolin Xia,Wenlong Liu,Huijun Ren,Long Lv +11 more
TL;DR: Nb2AlC/Nb2C MXene heterojunction photocatalysts exhibit enhanced CO2 hydrogenation activity via dual localized surface plasmon resonance effects, achieving 110.15 μmol∙g-1∙h-1 conversion and 92% CO selectivity under simulated solar irradiation.
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Localized surface plasmon resonance effect of V4C3-MXene for enhancing photothermal reduction of CO2 in full solar spectrum
Yang Liu,Guoqiang Tan,Shuaijun Feng,Bixin Zhang,Tian Liu,Zeqiong Wang,Yu Bi,Qianru Yang,Huijun Ren,Long Lv,Wenlong Liu,Aolin Xia,Qiangsheng Zhao +12 more
TL;DR: Researchers develop V4C3-MXene material with localized surface plasmon resonance effect, enhancing photothermal reduction of CO2 in full solar spectrum with 95.68 μmol·g-1·h-1 CO yield and 96% selectivity under simulated sunlight irradiation.
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