(发光 InP 量子点：它们与 CdSe 并不相同

ECS Transactions Pub Date : 2024-05-17 DOI:10.1149/11303.0003ecst

Paul Cavanaugh, Haochen Sun, Ilan Jen-La Plante, Xudong Wang, Maria Bautista, Christian Ippen, A. Kelley, David Kelley

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摘要

基于镉硒的量子点和基于铟磷的量子点在光谱学和光物理学方面有很大的异同。其中一个更重要的差异是 InP/ZnSe 量子点（QDs）中存在可逆填充的空穴陷阱。这些陷阱会影响整个激发态动力学的许多方面。在本文中，我们阐明了室温下高质量 InP/ZnSe/ZnS 量子点中的空穴弛豫动力学，并重点研究了这些陷阱的作用。具体来说，我们发现瞬时填充陷阱的存在会导致极慢（几十皮秒到纳秒）的空穴冷却，这表现在光激发后相当一部分光致发光会呈现缓慢的上升时间。通过结合化学衍生研究和密度泛函理论计算，我们将这些现象归因于 ZnSe 外壳中邻近锌空位（In3+/VZn 2-）的置换铟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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(Invited) Luminescent InP Quantum Dots: They're Not Just Like CdSe

There are significant similarities and differences in the spectroscopy and photophysics between CdSe-based and InP-based quantum dots. One of the more important differences is the presence of reversibly populated hole traps in InP/ZnSe quantum dots (QDs). These traps affect many aspects of the overall excited state dynamics. In this paper we elucidate the hole relaxation dynamics in high quality InP/ZnSe/ZnS QDs at room temperature and focus on the role of these traps. Specifically, we show that the presence of transiently populated traps results in extremely slow (tens of picoseconds to nanoseconds) hole cooling as evidenced by a significant fraction of the photoluminescence exhibiting a slow risetime following photoexcitation. Through a combination of chemical derivatization studies and density functional theory calculations, they are assigned to substitutional indium adjacent to a zinc vacancy, In3+/VZn 2-, in the ZnSe shell.

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ECS Transactions

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