Construction of ZnTiO3/Bi4NbO8Cl heterojunction with enhanced photocatalytic performance
暂无分享,去创建一个
[1] Hongbing Song,et al. In-situ synthesis of Bi2S3 quantum dots for enhancing photodegradation of organic pollutants , 2020 .
[2] Jiajie Fan,et al. Core-shell Ag@Ni cocatalyst on the TiO2 photocatalyst: One-step photoinduced deposition and its improved H2-evolution activity , 2020 .
[3] Lun Pan,et al. Visible-light-induced unbalanced charge on NiCoP/TiO2 sensitized system for rapid H2 generation from hydrolysis of ammonia borane , 2020 .
[4] M. Dong,et al. Ultrastable metal-free near-infrared-driven photocatalysts for H2 production based on protonated 2D g-C3N4 sensitized with Chlorin e6 , 2020 .
[5] Gaoke Zhang,et al. Novel BiSbO4/BiOBr nanoarchitecture with enhanced visible-light driven photocatalytic performance: Oxygen-induced pathway of activation and mechanism unveiling , 2019 .
[6] Gang Nie,et al. Metal-Free Enhanced Photocatalytic Activation of Dioxygen by g-C3N4 Doped with Abundant Oxygen-Containing Functional Groups for Selective N-Deethylation of Rhodamine B , 2019, Catalysts.
[7] Wenhui Feng,et al. Z-scheme system of WO3@MoS2/CdS for photocatalytic evolution H2: MoS2 as the charge transfer mode switcher, electron-hole mediator and cocatalyst , 2019 .
[8] Xianying Wang,et al. Hierarchical In2O3@SnO2 Core-shell Nanofiber for High Efficiency Formaldehyde Detection. , 2019, ACS applied materials & interfaces.
[9] Byeong-Kyu Lee,et al. Reduced graphene oxide (RGO) on TiO2 for an improved photoelectrochemical (PEC) and photocatalytic activity , 2019, Solar Energy.
[10] Heechul Choi,et al. Design of a highly efficient ternary AgI/rGO/BiVO4 nanocomposite and its direct solar light induced photocatalytic activity , 2019, Applied Surface Science.
[11] G. Kardaş,et al. Optimizing copper oxide layer on zinc oxide via two-step electrodeposition for better photocatalytic performance in photoelectrochemical cells , 2019, Applied Surface Science.
[12] D. Bahnemann,et al. Two-Dimensional Layered Zinc Silicate Nanosheets with Excellent Photocatalytic Performance for Organic Pollutant Degradation and CO2 Conversion. , 2019, Angewandte Chemie.
[13] Jiaguo Yu,et al. Direct Z-scheme ZnO/CdS hierarchical photocatalyst for enhanced photocatalytic H2-production activity , 2019, Applied Catalysis B: Environmental.
[14] Q. Wang,et al. Construction of novel ZnTiO3/g-C3N4 heterostructures with enhanced visible light photocatalytic activity for dye wastewater treatment , 2019, Journal of Materials Science: Materials in Electronics.
[15] Hanqing Yu,et al. Degradation of rhodamine B in a novel bio-photoelectric reductive system composed of Shewanella oneidensis MR-1 and Ag3PO4. , 2019, Environment international.
[16] Chaorong Li,et al. The enhancement of photocatalytic hydrogen production via Ti3+ self-doping black TiO2/g-C3N4 hollow core-shell nano-heterojunction , 2019, Applied Catalysis B: Environmental.
[17] Jun Chen,et al. Construction of a novel ZnCo2O4/Bi2O3 heterojunction photocatalyst with enhanced visible light photocatalytic activity , 2019, Chinese Chemical Letters.
[18] Min Xu,et al. Porous hypercrosslinked polymer-TiO2-graphene composite photocatalysts for visible-light-driven CO2 conversion , 2019, Nature Communications.
[19] Xiaoyong Wu,et al. 0D Bi nanodots/2D Bi3NbO7 nanosheets heterojunctions for efficient visible light photocatalytic degradation of antibiotics: Enhanced molecular oxygen activation and mechanism insight , 2019, Applied Catalysis B: Environmental.
[20] L. Long,et al. Integration of Lanthanide-Transition-Metal Clusters onto CdS Surfaces for Photocatalytic Hydrogen Evolution. , 2018, Angewandte Chemie.
[21] Aijie Wang,et al. Visible-light-responsive graphene-functionalized Bi-bridge Z-scheme black BiOCl/Bi2O3 heterojunction with oxygen vacancy and multiple charge transfer channels for efficient photocatalytic degradation of 2-nitrophenol and industrial wastewater treatment , 2018, Applied Catalysis B: Environmental.
[22] Junfa Zhu,et al. Enabling Visible-Light-Driven Selective CO2 Reduction by Doping Quantum Dots: Trapping Electrons and Suppressing H2 Evolution. , 2018, Angewandte Chemie.
[23] Jinghua Yu,et al. Paper-Based Origami Photoelectrochemical Sensing Platform with TiO2/Bi4NbO8Cl/Co-Pi Cascade Structure Enabling of Bidirectional Modulation of Charge Carrier Separation. , 2018, Analytical chemistry.
[24] Yihe Zhang,et al. Z-Scheme g-C3N4/Bi4NbO8Cl Heterojunction for Enhanced Photocatalytic Hydrogen Production , 2018, ACS Sustainable Chemistry & Engineering.
[25] Juncheng Hu,et al. In-situ topotactic synthesis and photocatalytic activity of plate-like BiOCl/2D networks Bi2S3 heterostructures , 2018 .
[26] Q. Hao,et al. One-pot synthesis of C/Bi/Bi2O3 composite with enhanced photocatalytic activity , 2017 .
[27] Yuhan Sun,et al. 0D–2D Quantum Dot: Metal Dichalcogenide Nanocomposite Photocatalyst Achieves Efficient Hydrogen Generation , 2017, Advanced materials.
[28] Shaomin Liu,et al. Facile assembly of Bi2O3/Bi2S3/MoS2n-p heterojunction with layered n-Bi2O3 and p-MoS2 for enhanced photocatalytic water oxidation and pollutant degradation , 2017 .
[29] O. Zelaya-Ángel,et al. Analysis of the photocatalytic activity of CdS+ZnTiO 3 nanocomposite films prepared by sputtering process , 2016 .
[30] H. Kageyama,et al. Layered Perovskite Oxychloride Bi4NbO8Cl: A Stable Visible Light Responsive Photocatalyst for Water Splitting. , 2016, Journal of the American Chemical Society.
[31] R. Ahuja,et al. Strain Engineering for Phosphorene: The Potential Application as a Photocatalyst , 2014, 1410.7123.
[32] D. Zhao,et al. Ordered mesoporous black TiO(2) as highly efficient hydrogen evolution photocatalyst. , 2014, Journal of the American Chemical Society.
[33] B. Du,et al. Novel visible-light driven g-C3N4/Zn0.25Cd0.75S composite photocatalyst for efficient degradation of dyes and reduction of Cr(VI) in water , 2014 .
[34] Yishu Liu,et al. In situ growth of lamellar ZnTiO3 nanosheets on TiO2 tubular array with enhanced photocatalytic activity. , 2013, Physical chemistry chemical physics : PCCP.
[35] K. Parida,et al. Fabrication of novel p-BiOI/n-ZnTiO3 heterojunction for degradation of rhodamine 6G under visible light irradiation. , 2013, Inorganic chemistry.
[36] Yichun Liu,et al. Bi2MoO6 ultrathin nanosheets on ZnTiO3 nanofibers: a 3D open hierarchical heterostructures synergistic system with enhanced visible-light-driven photocatalytic activity. , 2012, Journal of hazardous materials.