机译:TiO2 / BiVO4纳米复合材料的长寿命,可见光激发的电荷载体及其水分解的非预期光敏性
Key Laboratory of Functional Inorganic Materials Chemistry Heilongjiang University Ministry of Education School of Chemistry and Materials Science Harbin P. R. China;
State Key Lab of Urban Water Resource and Environment Harbin Institute of Technology Harbin P. R. China;
Key Laboratory of Functional Inorganic Materials Chemistry Heilongjiang University Ministry of Education School of Chemistry and Materials Science Harbin P. R. China;
Key Laboratory of Functional Inorganic Materials Chemistry Heilongjiang University Ministry of Education School of Chemistry and Materials Science Harbin P. R. China;
Key Laboratory of Functional Inorganic Materials Chemistry Heilongjiang University Ministry of Education School of Chemistry and Materials Science Harbin P. R. China;
State Key Lab of Urban Water Resource and Environment Harbin Institute of Technology Harbin P. R. China;
Key Laboratory of Functional Inorganic Materials Chemistry Heilongjiang University Ministry of Education School of Chemistry and Materials Science Harbin P. R. China;
TiO2/BiVO4 nanocomposites; high-energy electron transfer; photogenerated charges; lifetimes; photocatalysis; water splitting;
机译:通过W掺杂光电化学水分裂对TiO2 / Bivo4 PhotoNode的互晶电荷迁移
机译:磷酸盐桥接后TiO2-Fe2O3纳米复合材料对可见光水分解的改善的光活性及其机理
机译:氧气职位空缺对光电化学水分裂的TiO2电荷载流量的影响
机译:使用水作为金属硫化物和rgo-(Coox / Bivo4)不可化的光照射,用水作为Z-示意性水分解和CO 2减少。
机译:串联水分解装置中BiVO4光电阳极和敏化的宽间隙p型氧化物的半导体光化学
机译:电沉积光电化学分解水制备纳米多孔BiVO4 / TiO2 / Ti薄膜
机译:钒改性TiO2薄膜中的超快电荷载体动力学及其与水分裂光电催化效率的关系