机译:通过改变光催化二氧化碳减少钴活性位点的活动和选择性调节
Soochow Univ Soochow Inst Energy &
Mat Innovat Coll Energy Suzhou 215006 Peoples R China;
Soochow Univ Soochow Inst Energy &
Mat Innovat Coll Energy Suzhou 215006 Peoples R China;
Soochow Univ Soochow Inst Energy &
Mat Innovat Coll Energy Suzhou 215006 Peoples R China;
Soochow Univ Soochow Inst Energy &
Mat Innovat Coll Energy Suzhou 215006 Peoples R China;
Soochow Univ Soochow Inst Energy &
Mat Innovat Coll Energy Suzhou 215006 Peoples R China;
Soochow Univ Soochow Inst Energy &
Mat Innovat Coll Energy Suzhou 215006 Peoples R China;
Shanghai Jiao Tong Univ Sch Mat Sci &
Engn State Key Lab Met Matrix Composites Shanghai 200240 Peoples R China;
Shanghai Jiao Tong Univ Sch Mat Sci &
Engn State Key Lab Met Matrix Composites Shanghai 200240 Peoples R China;
Soochow Univ Soochow Inst Energy &
Mat Innovat Coll Energy Suzhou 215006 Peoples R China;
Soochow Univ Soochow Inst Energy &
Mat Innovat Coll Energy Suzhou 215006 Peoples R China;
机译:通过改变光催化二氧化碳减少钴活性位点的活动和选择性调节
机译:杂金属活性位点与强型多氧酸盐相结合,用于选择性光催化CO 2-CH4转化在水中
机译:Bivo4突起中钴和铜氧化物的选择性沉积,用于增强CO2光催化还原对碳氢化合物的选择性
机译:用一系列钴卟啉盐,Cu-Photenitizer的高效光催化二氧化碳减少完全含水含量
机译:费托钴催化剂的位点活性,活性炭覆盖率和甲烷选择性:催化剂组成和反应条件的影响。
机译:杂金属活性位点与强还原性多金属氧酸盐偶联用于水中选择性的光催化CO2-CH4转化
机译:人造光合作用:Ni-NanoCluster改性黑色TiO2,具有双活性部位,用于选择性光催化二氧化碳减少(小2/2018)