本研究採用逐步熱注射的方式合成 CuInS2/ZnS (CIS/ZnS) 量子點。CIS/ZnS 核/ 殼結構的 量子點不僅讓光譜藍移也使量子效率由 2 % 提升至 83 %。YAG 螢光粉中加入 CIS/ZnSDDT 或 CIS/ZnSS 量子點可使白光發光二極體 (WLEDDDT 和 WLEDS) 的演色性 (CRI) 與發光效率同時 獲得提升。其中 WLEDS 的發光效率為 78 lm/W，而 WLEDODT 的演色性為 81。

In this study, we synthesized the CuInS2/ZnS core/shell quantum dot (QDs) via a stepwise hot injection route. Not only emission spectrum shifts to short wavelength but also increases the quantum yield (QY) from 2 to 83 % for CIS/ZnS core/shell QDs. Cooperation of YAG phosphors with CIS/ZnSDDT or CIS/ZnSS QDs in the encapsulate can improve the color rendering index (CRI) and luminous efficacy of YAG-based white light emitting-diodes (WLEDYAG) at the same time. The result shows that the highest CRI of 81 can be obtained for WLEDODT and the WLEDS has the highest luminous efficacy of 78 lm/W.