揭示室温以上层状 PbI2 的上转换光致发光。

IF 3.8 2区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Sharad Ambardar, Xiaodong Yang, Jie Gao
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引用次数: 0

摘要

作为一种范德华(vdW)层状半导体材料,碘化铅(PbI2)具有直接带隙,在可见光范围内具有很强的光致发光能力,在光子和光电设备的应用中受到广泛关注。在这里,我们展示了在室温和高温条件下剥离的 PbI2 片材中的上转换光致发光(UPL)。在 532 nm 激发下,UPL 发射的线性功率依赖性表明了单光子参与的多声子辅助 UPL 发射过程,而温度依赖性 UPL 发射测量也揭示了这一点。同时,561 nm 激发下 UPL 发射的非线性功率依赖性表明 UPL 发射机制从线性向非线性转变,而温度依赖性 UPL 发射研究进一步表明上转换由多光子辅助 UPL 过程和双光子吸收诱导 PL 过程共同完成。这项研究将有助于理解 vdW 层状半导体中的光子上转换,并推动温控光子上转换、可调谐光子学、光探测和成像等领域的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Uncovering upconversion photoluminescence in layered PbI2 above room temperature.

As a van der Waals (vdW) layered semiconductor material, lead iodide (PbI2) possessing a direct bandgap with strong photoluminescence emission in visible range has gained wide attention in applications of photonic and optoelectronic devices. Here, upconversion photoluminescence (UPL) in exfoliated PbI2 flakes is demonstrated at room temperature and elevated temperatures. The linear power dependence of UPL emission with 532 nm excitation suggests the one-photon involved multiphonon-assisted UPL emission process, which is revealed by the temperature-dependent UPL emission measurement. Meanwhile, the nonlinear power dependence of UPL emission with 561 nm excitation indicates the transition of UPL emission mechanism from linear to nonlinear regime, and the temperature-dependent UPL emission study further shows that the upconversion is contributed by both the multiphonon-assisted UPL process and the two-photon absorption induced PL process. This study will provide an insight to the understanding of photon upconversion in vdW layered semiconductors and advancing applications in temperature-controlled photon upconversion, tunable photonics, photodetection and imaging.

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来源期刊
Scientific Reports
Scientific Reports Natural Science Disciplines-
CiteScore
7.50
自引率
4.30%
发文量
19567
审稿时长
3.9 months
期刊介绍: We publish original research from all areas of the natural sciences, psychology, medicine and engineering. You can learn more about what we publish by browsing our specific scientific subject areas below or explore Scientific Reports by browsing all articles and collections. Scientific Reports has a 2-year impact factor: 4.380 (2021), and is the 6th most-cited journal in the world, with more than 540,000 citations in 2020 (Clarivate Analytics, 2021). •Engineering Engineering covers all aspects of engineering, technology, and applied science. It plays a crucial role in the development of technologies to address some of the world''s biggest challenges, helping to save lives and improve the way we live. •Physical sciences Physical sciences are those academic disciplines that aim to uncover the underlying laws of nature — often written in the language of mathematics. It is a collective term for areas of study including astronomy, chemistry, materials science and physics. •Earth and environmental sciences Earth and environmental sciences cover all aspects of Earth and planetary science and broadly encompass solid Earth processes, surface and atmospheric dynamics, Earth system history, climate and climate change, marine and freshwater systems, and ecology. It also considers the interactions between humans and these systems. •Biological sciences Biological sciences encompass all the divisions of natural sciences examining various aspects of vital processes. The concept includes anatomy, physiology, cell biology, biochemistry and biophysics, and covers all organisms from microorganisms, animals to plants. •Health sciences The health sciences study health, disease and healthcare. This field of study aims to develop knowledge, interventions and technology for use in healthcare to improve the treatment of patients.
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