机译:CdS / ZnS核/壳量子点中受控的掺杂剂迁移
Department of Chemistry, Syracuse University, Syracuse, New York 13244, United States;
Department of Chemistry, Syracuse University, Syracuse, New York 13244, United States;
Department of Chemistry, Syracuse University, Syracuse, New York 13244, United States;
National Biomedical Center for Advanced Electron Spin Resonance Technology, Ithaca, New York 14853, United States;
Department of Chemistry, Syracuse University, Syracuse, New York 13244, United States;
机译:通过调整ZnS / CdSe核/壳量子点中的单个掺杂剂位置,磁场强度和壳厚度来控制结合能
机译:通过化学活化方法增强水中稳定的CdSe / CdS / ZnS核/壳/壳和CdSe / ZnS核/壳量子点的光致发光
机译:通过化学活化方法增强水中稳定的CdSe / CdS / ZnS核/壳/壳和CdSe / ZnS核/壳量子点的光致发光
机译:由于电荷载流子限制的增强,CdSe-ZnS / CdS / ZnS核-多壳量子点的光致发光量子产率接近100%
机译:Cdse1-Xsx / Zns合金核心 - 壳量子点的调谐尺寸和发光特性通过酒精
机译:核/壳CdSe / ZnS量子点薄膜光激发发光的可逆电化学控制
机译:CdseTe合金核心量子点周围Cds,Cds / Znse和Cds / Znse / Zns壳的沉积:对光学性质的影响