量子点
光电子学
材料科学
电致发光
发光二极管
亮度
饱和(图论)
磷化铟
铟
高颜色
量子效率
硒化镉
镉
光学
纳米技术
物理
砷化镓
彩色图像
图层(电子)
数学
组合数学
人工智能
图像处理
计算机科学
冶金
图像(数学)
作者
Christian Ippen,Tonino Greco,Yohan Kim,Christopher Pries,Jiwan Kim,Min Suk Oh,Chul Jong Han,Armin Wedel
摘要
Abstract Semiconductor quantum dots (QDs) promise facile color tuning and high color saturation in quantum‐dot light‐emitting devices (QD‐LEDs) by controlling nanoparticle size and size distribution. Here, we demonstrate how this promise can be practically realized for the cadmium‐free InP/ZnSe/ZnS multishell quantum dots. We developed a set of synthesis conditions and core/shell compositions that result in QDs with green, yellow, and red emission color. The QD‐LEDs employing these QDs show efficient electroluminescence (EL) with luminance up to 1800 cd/m 2 and efficiency up to 5.1 cd/ A . The color coordinates calculated from the EL spectra clearly demonstrate the outstanding color saturation as an outcome of the narrow particle size distribution. These results prove that the performance gap between cadmium‐free and cadmium‐based QDs in QD‐LEDs is shrinking rapidly.
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