相偏析后混合卤化物钙钛矿微孔板中载流子输运的加速。

IF 16 1区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
ACS Nano Pub Date : 2025-06-26 DOI:10.1021/acsnano.5c07733
Si Li, Yang Xiao, Fengrui Hu*, Minxue Yang, Encheng Sun, Yuhong Shi, Zhixing Gan, Chunfeng Zhang, Bihu Lv, Yan Lv, Wei Chen*, Min Xiao and Xiaoyong Wang*, 
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引用次数: 0

摘要

铅混合溴碘钙钛矿的带隙能量可以通过调整组成卤化物阴离子的比例来调节,在连续光照下,这些卤化物阴离子会再次分离形成富碘畴。在这里,我们利用瞬态吸收显微镜研究了在这种富碘结构域的影响下,单个CsPbBr1.5I1.5微孔板中的载流子扩散动力学。正如在相分离微孔板中所期望的那样,电荷载流子的寿命由于它们以低带隙能量迁移到富碘畴而缩短。令人惊讶的是,根据格林函数模拟,电荷载流子的扩散系数在相分离微孔板中显着增加,表明它们被富碘畴有效加速。上述发现促进了对混合卤化物钙钛矿载流子扩散动力学的理解,有助于其在各种光电子器件(如太阳能电池和光电探测器)中的潜在应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Acceleration of Carrier Transport in an Individual Microplate of Mixed-Halide Perovskite after Phase Segregation

Acceleration of Carrier Transport in an Individual Microplate of Mixed-Halide Perovskite after Phase Segregation

The band gap energy of lead mixed bromide-iodide perovskite can be simply tuned by adjusting the ratio between the composing halide anions, which would be segregated again upon continuous light illumination to form the iodide-rich domains. Here, we have employed transient absorption microscopy to investigate the carrier diffusion dynamics in an individual CsPbBr1.5I1.5 microplate under the influence of such iodide-rich domains. As expected in the phase-segregated microplate, the lifetime of charge carriers is shortened owing to their migration into the iodide-rich domains with a low band gap energy. Surprisingly, the diffusion coefficient of charge carriers is significantly increased in the phase-segregated microplate, signifying their effective acceleration by the iodide-rich domains according to our Green’s function simulations. The above findings have advanced the understanding of the carrier diffusion dynamics in mixed-halide perovskites, which would facilitate their potential applications in various optoelectronic devices such as solar cells and photodetectors.

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来源期刊
ACS Nano
ACS Nano 工程技术-材料科学:综合
CiteScore
26.00
自引率
4.10%
发文量
1627
审稿时长
1.7 months
期刊介绍: ACS Nano, published monthly, serves as an international forum for comprehensive articles on nanoscience and nanotechnology research at the intersections of chemistry, biology, materials science, physics, and engineering. The journal fosters communication among scientists in these communities, facilitating collaboration, new research opportunities, and advancements through discoveries. ACS Nano covers synthesis, assembly, characterization, theory, and simulation of nanostructures, nanobiotechnology, nanofabrication, methods and tools for nanoscience and nanotechnology, and self- and directed-assembly. Alongside original research articles, it offers thorough reviews, perspectives on cutting-edge research, and discussions envisioning the future of nanoscience and nanotechnology.
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