无铅卤化物钙钛矿的掺杂/合金化途径，实现终极光致发光量子产率。

Doping/Alloying Pathways to Lead-Free Halide Perovskites with Ultimate Photoluminescence Quantum Yields.

机构信息

Forschungszentrum Jülich GmbH, Helmholtz-Institut Erlangen Nürnberg für Erneuerbare Energien (HI ERN), Immerwahrstrasse 2, 91058, Erlangen, Germany.

Friedrich-Alexander-Universität Erlangen-Nürnberg, Materials for Electronics and Energy Technology (i-MEET), Martensstrasse 7, 91058, Erlangen, Germany.

出版信息

Angew Chem Int Ed Engl. 2023 Jan 16;62(3):e202212668. doi: 10.1002/anie.202212668. Epub 2022 Dec 7.

DOI:10.1002/anie.202212668

PMID:36223136

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10108288/

Abstract

Tailored modifications of halide lead-free perovskites (LFPs) via doping/alloying with metal cations have been recognized as a promising pathway to highly efficient inorganic phosphors with photoluminescence (PL) quantum yields of up to 100 %. Such materials typically display selective sensitivity to UV light, a broad PL range, and long PL lifetimes as well as a unique compositional variability and stability-an ideal combination for many light-harvesting applications. This Minireview presents the state-of-the-art in doped LFPs, focusing on the reports published mostly in the last two to three years. We discuss the factors determining the efficiency and spectral parameters of the broadband PL of doped LFPs depending on the dopant and host matrix, both in micro- and nanocrystalline states, address the most relevant challenges this rapidly developing research area is facing, and outline the most promising concepts for further progress in this field.

摘要

通过掺杂/合金化金属阳离子对卤化物无铅钙钛矿 (LFPs) 进行定制修饰，已被认为是实现高效无机荧光粉的有前途的途径，其光致发光 (PL) 量子产率高达 100%。此类材料通常对紫外光具有选择性灵敏度、宽的 PL 范围和长的 PL 寿命以及独特的组成可变性和稳定性——这是许多光收集应用的理想组合。本综述介绍了掺杂 LFPs 的最新进展，重点介绍了过去两到三年内发表的报告。我们讨论了决定掺杂 LFPs 宽带 PL 的效率和光谱参数的因素，这些因素取决于掺杂剂和基质，无论是在微纳晶状态下，都解决了这个快速发展的研究领域所面临的最相关挑战，并概述了该领域进一步发展的最有前途的概念。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3de2/10108288/781ab7726c0f/ANIE-62-0-g006.jpg

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无铅卤化物钙钛矿的掺杂/合金化途径，实现终极光致发光量子产率。

Doping/Alloying Pathways to Lead-Free Halide Perovskites with Ultimate Photoluminescence Quantum Yields.

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