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  • 人物=史维娜x

13 条 记 录,以下是 1-13

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Controllable synthesis of Cu2O decorated WO3 nanosheets with dominant (001) facets for photocatalytic CO2 reduction under visible -light irradiation被引量:130收藏 分享
作者:Shi, Weina Guo, Xiaowei Cui, Chengxing Jiang, Kai Li, Zhongjun Qu, Lingbo Wang, Ji-Chao
机构:Xinxiang Univ;Henan Inst Sci & Technol;Henan Normal Univ;Zhengzhou Univ
来源:APPLIED CATALYSIS B-ENVIRONMENTAL  2019
关键词:CO2 reduction   Hexagonal WO3   Nanosheet   Z-Scheme   Cu2O   Photocatalysis  
Porous Mn doped g-C3N4 photocatalysts for enhanced synergetic degradation under visible-light illumination被引量:113收藏 分享
作者:Wang, Ji-Chao Cui, Cheng-Xing Li, Ying Liu, Lu Zhang, Yu-Ping Shi, Weina
机构:Henan Inst Sci & Technol;Xinxiang Univ;Huazhong Univ Sci & Technol
来源:JOURNAL OF HAZARDOUS MATERIALS  2017
关键词:Synergistic effect   g-C3N4   Mn doping   Surface modification   Cr(VI) reduction  
Controllable synthesis of Cu2O decorated WO3 nanosheets with dominant (0 0 1) facets for photocatalytic CO2 reduction under visible-light irradiation被引量:70收藏 分享
作者:Shi, Weina Guo, Xiaowei Cui, Chengxing Jiang, Kai Li, Zhongjun Qu, Lingbo Wang, Ji-Chao
机构: College of Chemistry and Chemical Engineering; Postdoctoral Research Base; Post-doctoral Station of Environmental Science and Engineering; College of Chemistry and Molecular Engineering
来源:Applied Catalysis B: Environmental  2019
关键词:Carbon dioxide - Catalyst activity - Charge transfer - Copper oxides - Heterojunctions - Irradiation - Light - Nanosheets - Photocatalysis - Photocatalytic activity - Tungsten compounds  
Natural sunlight driven highly efficient photocatalysis for simultaneous degradation of rhodamine B and methyl orange using I/C codoped TiO2 photocatalyst被引量:49收藏 分享
作者:Wang, Ji-Chao Lou, Hui-Hui Xu, Zhi-Hua Cui, Cheng-Xing Li, Zhong-Jun Jiang, Kai Zhang, Yu-Ping Qu, Ling-Bo Shi, Weina
机构:Henan Inst Sci & Technol;Henan Normal Univ;Xinxiang Univ;Zhengzhou Univ
来源:JOURNAL OF HAZARDOUS MATERIALS  2018
关键词:Photocatalytic degradation   Natural sunlight   Codoping   Hydroxyl radical   HO2  
A novel synthesis of oleophylic Fe2O3/polystyrene fibers by gamma-Ray irradiation for the enhanced photocatalysis of 4-chlorophenol and 4-nitrophenol degradation被引量:31收藏 分享
作者:Wang, Ji-Chao Li, Ying Li, Heng Cui, Zeng-Hui Hou, Yuxia Shi, Weina Jiang, Kai Qu, Lingbo Zhang, Yu -Ping
机构:Henan Inst Sci & Technol;Xinxiang Univ;Zhengzhou Univ;Henan Normal Univ
来源:JOURNAL OF HAZARDOUS MATERIALS  2019
关键词:Photocatalytic degradation   4-chlorophenol   4-nitrophenol   gamma-Ray   Fe2O3/PS fiber  
Fabrication of porous polyacrylamide/polystyrene fibrous membranes for efficient oil-water separation被引量:31收藏 分享
作者:Wang, Ji-Chao Lou, Huihui Cui, Zeng-Hui Hou, Yuxia Li, Ying Zhang, Yuping Jiang, Kai Shi, Weina Qu, Lingbo
机构:Henan Normal Univ;Henan Inst Sci & Technol;Xinxiang Univ;Zhengzhou Univ
来源:SEPARATION AND PURIFICATION TECHNOLOGY  2019
关键词:Oil/water separation   Polyacrylamide/polystyrene   Porous fiber   Electrospinning   Mico-nano structure  
Enhanced photocatalytic 3D/2D architecture for CO2 reduction over cuprous oxide octahedrons supported on hexagonal phase tungsten oxide nanoflakes被引量:26收藏 分享
作者:Shi, Weina Guo, Xiaowei Wang, Ji-Chao Li, Yu Liu, Lu Hou, Yuxia Li, Ying Lou, Huihui
机构:Xinxiang Univ;Henan Inst Sci & Technol;Zhengzhou Univ Light Ind;Zhengzhou Univ
来源:JOURNAL OF ALLOYS AND COMPOUNDS  2020
关键词:3D/2D architecture   Cu2O Octahedrons   CO2 reduction   Selectivity   WO3 nanoflakes  
Enhanced Photo-Assisted Acetone Gas Sensor and Efficient Photocatalytic Degradation Using Fe-Doped Hexagonal and Monoclinic WO3 Phase-Junction被引量:16收藏 分享
作者:Wang, Ji-Chao Shi, Weina Sun, Xue-Qin Wu, Fang-Yan Li, Yu Hou, Yuxia
机构:Henan Inst Sci & Technol;Zhengzhou Univ;Xinxiang Univ;Zhengzhou Univ Light Ind
来源:NANOMATERIALS  2020
关键词:photo-assisted   gas sensor   acetone   Fe doping   phase-junction  
A novel synthesis of oleophylic Fe2O3/polystyrene fibers by Γ-Ray irradiation for the enhanced photocatalysis of 4-chlorophenol and 4-nitrophenol degradation被引量:14收藏 分享
作者:Wang, Ji-Chao Li, Ying Li, Heng Cui, Zeng-Hui Hou, Yuxia Shi, Weina Jiang, Kai Qu, Lingbo Zhang, Yu-Ping
机构: College of Chemistry and Chemical Engineering; College of Chemistry and Chemical Engineering; College of Chemistry and Molecular Engineering; School of Environment
来源:Journal of Hazardous Materials  2019
关键词:Biodegradation - Catalysts - Electrospinning - Fibers - Hematite - Irradiation - Photocatalytic activity - Wastewater treatment  
Enhanced photocatalytic 3D/2D architecture for CO2 reduction over cuprous oxide octahedrons supported on hexagonal phase tungsten oxide nanoflakes被引量:7收藏 分享
作者:Shi, Weina Guo, Xiaowei Wang, Ji-Chao Li, Yu Liu, Lu Hou, Yuxia Li, Ying Lou, Huihui
机构: College of Chemistry and Chemical Engineering; College of Chemistry and Chemical Engineering; College of Chemical Engineering and Materials; College of Chemistry and Molecular Engineering
来源:Journal of Alloys and Compounds  2020
关键词:Architecture - Carbon dioxide - Catalyst selectivity - Copper oxides - Heterojunctions - Oxide minerals - X ray photoelectron spectroscopy  
BiOI/WO3 photoanode with enhanced photoelectrochemical water splitting activity被引量:7收藏 分享
作者:Shi, Weina Lv, Xiaowei Shen, Yan
机构:Huazhong Univ Sci & Technol;Xinxiang Univ
来源:FRONTIERS OF OPTOELECTRONICS  2018
关键词:photoelectrochemistry   WO3   BiOI   water splitting  
One-pot hydrothermal preparation of Ni and I co-doped brookite-anatase TiO2 nanoparticles with remarkably enhanced photoreduction activity of CO2 to CH4被引量:0收藏 分享
作者:Shi, Weina Zhang, Ran Wang, Ji-Chao Li, Wei Guo, Xiaowei Guo, Jiao Li, Renlong Hou, Yuxia Zhang, Wanqing Gao, Hui -Ling
机构:Xinxiang Univ;Henan Inst Sci & Technol
来源:JOURNAL OF CATALYSIS  2024
关键词:CO 2 reduction   Selectivity   Photocatalyst   Co -doping   Phase -junction  
被引量:0收藏 分享
作者:Weina SHI Xiaowei LV Yan SHEN
机构:Wuhan National Laboratory for Optoelectronics;College of Chemistry and Chemical Engineering
来源:[1]Wuhan National Laboratory for Optoelectronics,Huazhong University of Science and Technology,Wuhan 430074,China;[2]College of Chemistry and Chemical Engineering,Xinxiang University,Xinxiang 453003,China  2018
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