...
机译:新型AG / AGVO3 / BIVO4异质结的制备,具有显着增强的可见光光催化性能,起源于光生电荷对的Z方案分离
Sichuan Univ Sci &
Engn Coll Chem &
Environm Engn Key Lab Green Catalysis Higher Educ Inst Sichuan Zigong 643000 Peoples R China;
Sichuan Univ Sci &
Engn Coll Chem &
Environm Engn Key Lab Green Catalysis Higher Educ Inst Sichuan Zigong 643000 Peoples R China;
Sichuan Univ Sci &
Engn Coll Chem &
Environm Engn Key Lab Green Catalysis Higher Educ Inst Sichuan Zigong 643000 Peoples R China;
Sichuan Univ Sci &
Engn Coll Chem &
Environm Engn Key Lab Green Catalysis Higher Educ Inst Sichuan Zigong 643000 Peoples R China;
Sichuan Univ Sci &
Engn Coll Chem &
Environm Engn Key Lab Green Catalysis Higher Educ Inst Sichuan Zigong 643000 Peoples R China;
Sichuan Univ Sci &
Engn Coll Chem &
Environm Engn Key Lab Green Catalysis Higher Educ Inst Sichuan Zigong 643000 Peoples R China;
Semiconductors; BiVO4; Ag-0; Z-scheme mechanism; Charge pairs separation;
机译:新型AG / AGVO3 / BIVO4异质结的制备,具有显着增强的可见光光催化性能,起源于光生电荷对的Z方案分离
机译:全固体Z方案Bi-Biocl / AgCl异质结微球,用于改进的电子 - 孔分离和增强的可见光催化光催化性能
机译:离子液体辅助生物/ BioCl杂交的水热制剂,具有增强的光产生电荷对的分离效率和光催化性能
机译:增强的表面反应动力学和P-N异质结合CO3O4 / BIVO4光电池的电荷分离
机译:可见光活性半导体异质结增强了光催化活性
机译:一锅合成可见光驱动BiOCl / AgCl / BiVO4 n-p异质结对药物污染物的光催化降解
机译:ZnO-嵌入式S掺杂G-C3N4异质结:无介质的Z方案机制,用于增强电荷分离和光催化降解