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机译:微波诱导表面增强了AG / TiO_2上的污染物吸附和光催化降解
Shanghai Normal Univ Key Lab Resource Chem Shanghai Key Lab Rare Earth Funct Mat Minist Educ Shanghai 200234 Peoples R China;
Shanghai Normal Univ Key Lab Resource Chem Shanghai Key Lab Rare Earth Funct Mat Minist Educ Shanghai 200234 Peoples R China;
Shanghai Normal Univ Key Lab Resource Chem Shanghai Key Lab Rare Earth Funct Mat Minist Educ Shanghai 200234 Peoples R China;
Shanghai Normal Univ Key Lab Resource Chem Shanghai Key Lab Rare Earth Funct Mat Minist Educ Shanghai 200234 Peoples R China;
Shanghai Normal Univ Key Lab Resource Chem Shanghai Key Lab Rare Earth Funct Mat Minist Educ Shanghai 200234 Peoples R China;
Shanghai Normal Univ Key Lab Resource Chem Shanghai Key Lab Rare Earth Funct Mat Minist Educ Shanghai 200234 Peoples R China;
Shanghai Normal Univ Key Lab Resource Chem Shanghai Key Lab Rare Earth Funct Mat Minist Educ Shanghai 200234 Peoples R China;
Ag/TiO2; Microwave-assisted; Surface adsorption enhancement; Photocatalytic degradation;
机译:通过电荷转移复合路径大幅增强TiO_2上无色芳香族污染物的可见光光催化降解:化学结构与污染物降解速率之间的关系
机译:包埋TiO_2的多孔电纺纤维对水污染物的吸附和光催化降解
机译:新型g-C3N4 / Ag2SO4纳米复合材料:微波辅助快速制备和增强的可见光降解有机污染物的光催化性能
机译:通过分析表面电位和荧光来增强光催化降解金红石TiO_2
机译:合成高效的准一维二氧化钛纳米催化剂,用于增强含水有机污染物和氢气生产的光催化降解
机译:Ag @ AgBr掺杂的花状Bi2O2CO3对可见光的降解作用增强。
机译:增强可见光光催化降解ag @ agBr点缀的花状Bi2O2CO3对有机污染物的影响
机译:通过表面和有组装的催化和光催化反应降解药剂