机译:有前途的阳极电化学氧化核/壳CuIns 2 /亚> / ZnS纳米晶体中的含水介质及其生物传感电位
School of Chemistry and Chemical Engineering and National Engineering and Technology Research Center for Colloidal Materials Shandong University Jinan 250100 China;
School of Chemistry and Chemical Engineering and National Engineering and Technology Research Center for Colloidal Materials Shandong University Jinan 250100 China;
School of Chemistry and Chemical Engineering and National Engineering and Technology Research Center for Colloidal Materials Shandong University Jinan 250100 China;
School of Chemistry and Chemical Engineering and National Engineering and Technology Research Center for Colloidal Materials Shandong University Jinan 250100 China;
School of Chemistry and Chemical Engineering and National Engineering and Technology Research Center for Colloidal Materials Shandong University Jinan 250100 China;
School of Chemistry and Chemical Engineering and National Engineering and Technology Research Center for Colloidal Materials Shandong University Jinan 250100 China;
机译:有前途的阳极电化学氧化核/壳CuIns 2 /亚> / ZnS纳米晶体中的含水介质及其生物传感电位
机译:来自Cuins2 / ZnS纳米晶体/肼通过内部Cu(I)/ Cu(II)循环循环的有前途的电化学荧光
机译:通过内部Cu + / Cu2 +夫妇循环来自Cuins2 @ ZnS纳米晶体的电化学发光的巯基苯甲酸桥接电荷转移
机译:ZnS壳生长过程中CulnS_2 / ZnS核/壳纳米晶体的形状演变:温度和锌含量的影响
机译:脱壳温度和时间对CuInS2 / ZnS量子点光学和结构性质的影响。
机译:表面化学前体反应性和温度决定了ZnInS2纳米晶体上ZnS脱壳反应的结果
机译:通过内部Cu(I)/ Cu(II)循环循环来自Cuins2 / ZnS纳米晶体/肼的电化学荧光。夫妇循环