Title :
Highly improve photochemical and thermal stability of quantum dots by growing a core-in-matrix hetero-structure
Author :
Shu Xu ; Hikmet, Rifat ; Kaiser, Monja ; van der Marel, Cees
Author_Institution :
Group Light Sources &Controls, Philips Res. Asia, Shanghai, China
Abstract :
Stability and thermal quenching is critical for application of quantum dots. In this article we developed a quantum dots in matrix structure, wherein the lattice mismatches between semiconductor crystal layers are optimized to reduce stress thus achieve large volume coating. This structure provides quantum dots with much lower thermal quenching and effectively improved quantum efficiency and photochemical stability, especial in air to make them ready for industrial application.
Keywords :
quantum dots; quenching (thermal); thermal stability; core-in-matrix heterostructure; lattice mismatches; photochemical stability; quantum dots; quantum efficiency; thermal quenching; thermal stability; Cadmium compounds; Crystals; II-VI semiconductor materials; Lattices; Thermal stability; Thermal stresses; Zinc compounds;
Conference_Titel :
Solid State Lighting (ChinaSSL), 2013 10th China International Forum on
Conference_Location :
Beijing
Print_ISBN :
978-1-4799-2249-9
DOI :
10.1109/SSLCHINA.2013.7177327
