利用巨型量子点使固态与溶液相光致发光匹配以实现近乎单位的下转换效率

Matching Solid-State to Solution-Phase Photoluminescence for Near-Unity Down-Conversion Efficiency Using Giant Quantum Dots.

作者信息

Hanson Christina J, Buck Matthew R, Acharya Krishna, Torres Joseph A, Kundu Janardan, Ma Xuedan, Bouquin Sarah, Hamilton Christopher E, Htoon Han, Hollingsworth Jennifer A

出版信息

ACS Appl Mater Interfaces. 2015 Jun 24;7(24):13125-30. doi: 10.1021/acsami.5b02818. Epub 2015 Jun 12.

DOI:10.1021/acsami.5b02818

PMID:26053473

Abstract

Efficient, stable, and narrowband red-emitting fluorophores are needed as down-conversion materials for next-generation solid-state lighting that is both efficient and of high color quality. Semiconductor quantum dots (QDs) are nearly ideal color-shifting phosphors, but solution-phase efficiencies have not traditionally extended to the solid-state, with losses from both intrinsic and environmental effects. Here, we assess the impacts of temperature and flux on QD phosphor performance. By controlling QD core/shell structure, we realize near-unity down-conversion efficiency and enhanced operational stability. Furthermore, we show that a simple modification of the phosphor-coated light-emitting diode device-incorporation of a thin spacer layer-can afford reduced thermal or photon-flux quenching at high driving currents (>200 mA).

摘要

作为下一代高效且具有高色彩质量的固态照明的下转换材料，需要高效、稳定且窄带发红光的荧光团。半导体量子点（QD）几乎是理想的变色磷光体，但传统上溶液相效率并未扩展到固态，存在内在和环境效应导致的损失。在此，我们评估温度和通量对量子点磷光体性能的影响。通过控制量子点的核/壳结构，我们实现了近乎单位的下转换效率和增强的操作稳定性。此外，我们表明，对涂有磷光体的发光二极管器件进行简单修改——加入薄间隔层——可以在高驱动电流（>200 mA）下降低热猝灭或光子通量猝灭。

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利用巨型量子点使固态与溶液相光致发光匹配以实现近乎单位的下转换效率

Matching Solid-State to Solution-Phase Photoluminescence for Near-Unity Down-Conversion Efficiency Using Giant Quantum Dots.

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