Chiral 3D Perovskite Formation Induced by Chiral Templates

Yang, Han-Jiang; Li, Bingxuan; Wang, Jin-Yun; Xu, Liang-Jin; Chen, Zhong-Ning

doi:10.1021/acs.nanolett.4c02125

Nano Lett.

2024

DOI: 10.1021/acs.nanolett.4c02125

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Chiral 3D Perovskite Formation Induced by Chiral Templates

Han-Jiang Yang,

Bingxuan Li,

Jin-Yun Wang

et al.

Abstract: Chiral 3D perovskites pose challenges compared to lower-dimensional variants due to limited chiral organic cation options. Here, we present a universal and controlled method for synthesizing chiral 3D lead halide perovskites using organic amines or alcohols as chiral templates. Introducing these templates to PbCl 2 in N,N-dimethylformamide (DMF) under acidic conditions induces the crystallization of R/S [DMA]PbCl 3 (DMA = dimethylamine). The resulting structure aligns with the templates used, stemming from the… Show more

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Cited by 2 publications

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Spin‐Orbital Ordering Effects of Light Emission in Organic–Inorganic Hybrid Metal Halide Perovskites

Liu,

Tang,

et al. 2024

Advanced Materials

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Organic–inorganic hybrid metal halide perovskites carrying strong spin‐orbital coupling (SOC) have demonstrated remarkable light‐emitting properties in spontaneous emission, amplified spontaneous emission (ASE), and circularly‐polarized luminescence (CPL). Experimental studies have shown that SOC plays an important role in controlling the light‐emitting properties in such hybrid perovskites. Here, the SOC consists of both orbital (L) and spin (S) momentum, leading to the formation of J (= L + S) excitons intrinsically involving orbital and spin momentum. In general, there are three issues in determining the effects of SOC on the light‐emitting properties of J excitons. First, when the J excitons function as individual quasi‐particles, the configurations of orbital and spin momentum directly decide the formation of bright and dark J excitons. Second, when the J excitons are mutually interacting as collective quasi‐particles, the exciton–exciton interactions can occur through orbital and spin momentum. The exciton–exciton interactions through orbital and spin momentum give rise to different light‐emitting properties, presenting SOC ordering effects. Third, the J excitons can develop ASE through coherent exciton–exciton interaction and CPL through exciton‐helical ordering effect. This review article discusses the SOC effects in spontaneous emission, ASE, and CPL in organic–inorganic hybrid metal halide perovskites.

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Spin‐Orbital Ordering Effects of Light Emission in Organic–Inorganic Hybrid Metal Halide Perovskites

Liu,

Tang,

et al. 2024

Advanced Materials

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Exploring π-extended chiral ligands for the direct detection of circularly polarized light in 2D chiral perovskites

Jeon,

Yeo,

Choi

et al. 2024

J. Mater. Chem. C

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Chiral 3D Perovskite Formation Induced by Chiral Templates

Cited by 2 publications

References 31 publications

Spin‐Orbital Ordering Effects of Light Emission in Organic–Inorganic Hybrid Metal Halide Perovskites

Spin‐Orbital Ordering Effects of Light Emission in Organic–Inorganic Hybrid Metal Halide Perovskites

Exploring π-extended chiral ligands for the direct detection of circularly polarized light in 2D chiral perovskites

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