光致发光
激子
量子点
材料科学
大气温度范围
凝聚态物理
Crystal(编程语言)
声子
兴奋剂
相变
放松(心理学)
分子物理学
分析化学(期刊)
化学
纳米技术
光电子学
物理
热力学
心理学
社会心理学
色谱法
计算机科学
程序设计语言
作者
Musa Çadırcı,Erdem Elibol,Tuna Demirci,Mustafa Kurban
摘要
Abstract In this study, CuLaSe 2 and ZnCuLaSe 2 quantum dots (QDs) with a mean size of ~4 nm were synthesized and characterized, and their temperature‐dependent photoluminescence (PL) properties were studied in the temperature range from 90 to 300 K for the first time. The results show that the obtained QDs were spherical and revealed excitonic band gaps. The PL intensity for both types of materials decreased when increasing the temperature to 300 K, which was attributed to the nonradiative relaxation and thermal escape mechanisms. As the temperature was increased, the PL linewidths broadened, and PL peak energies were red shifted for both types of QDs due to the exciton–phonon coupling and lattice deformation potential mechanisms. In addition, we found that as the temperature was decreased, the PL spectrum of ZnCuLaSe 2 QDs contained two extra components, which could be attributed to the shallow defect sites (low energy peak) and the crystal phase transition process (high energy peak). The spectrum of CuLaSe 2 QDs contained one extra component, which could be attributed to the crystal phase transition process.
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