机译:非高效界面电荷转移促进的2D / 2D G-C3N4 / BIVO4 Z方案异质结的显着光催化活性增强CO 2转化
Jiangnan Univ Sch Sci Wuxi 214122 Jiangsu Peoples R China;
Jiangnan Univ Sch Sci Wuxi 214122 Jiangsu Peoples R China;
Jiangnan Univ Sch Sci Wuxi 214122 Jiangsu Peoples R China;
Liaoning Univ Sch Phys Shenyang 110036 Peoples R China;
Jiangnan Univ Sch Sci Wuxi 214122 Jiangsu Peoples R China;
Jiangnan Univ Sch Chem &
Mat Engn Wuxi 214122 Jiangsu Peoples R China;
Jiangnan Univ Sch Sci Wuxi 214122 Jiangsu Peoples R China;
Jiangnan Univ Sch Sci Wuxi 214122 Jiangsu Peoples R China;
Photocatalysis; g-C3N4; 2D/2D; Ultrathin nanosheets; Z-Scheme;
机译:非高效界面电荷转移促进的2D / 2D G-C3N4 / BIVO4 Z方案异质结的显着光催化活性增强CO 2转化
机译:Ag-Bridged Z-Scheme 2D / 2D Bi5Feti3O15 / G-C3N4异质结来增强光催化:介质诱导的界面电荷转移和机制见解
机译:Z方案Bi_3O_4Cl / g-C_3N_4 2D / 2D异质结的制备,具有增强的界面电荷分离和光催化降解各种有机污染物的活性
机译:在单晶TiO2颗粒处光针对银纳米粒子的表面增强拉曼散射,用于研究其界面电荷转移活动和可再生能量转换
机译:与贵金属 - 贵金属和贵金属 - 2D半导体纳米结构的界面接触增强光学活性
机译:基于光诱导界面电荷转移的高效光催化氢气产生层状片状ZnIn2S4 / g-C3N4异质结构
机译:Ag-Bridged Zscheme 2D / 2D Bi5Feti3O15 / G-C3N4异质结来增强光催化:介质诱导的界面电荷转移和机制见解