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Chiral Assembly of Perovskite Nanocrystals: Sensitive Discrimination of Amino Acid Enantiomers

Jinzhou Liu, Xin-Yi Chai, Jingtao Huang, Rong Sheng Li, Chun Mei Li, Jian Ling, Qiue Cao, Cheng Zhi Huang

2024Analytical Chemistry16 citationsDOI

Abstract

Chirality is a widespread phenomenon in nature and in living organisms and plays an important role in living systems. The sensitive discrimination of chiral molecular enantiomers remains a challenge in the fields of chemistry and biology. Establishing a simple, fast, and efficient strategy to discriminate the spatial configuration of chiral molecular enantiomers is of great significance. Chiral perovskite nanocrystals (PNCs) have attracted much attention because of their excellent optical activity. However, it is a challenge to prepare perovskites with both chiral and fluorescence properties for chiral sensing. In this work, we synthesized two chiral fluorescent perovskite nanocrystal assembly (PNA) enantiomers by using l- or d-phenylalanine (Phe) as chiral ligands. PNA exhibited good fluorescence recognition for l- and d-proline (Pro). Homochiral interaction led to fluorescence enhancement, while heterochiral interaction led to fluorescence quenching, and there is a good linear relationship between the fluorescence changing rate and l- or d-Pro concentration. Mechanism studies show that homochiral interaction-induced fluorescence enhancement is attributed to the disassembly of chiral PNA, while no disassembly of chiral PNA was found in heterochiral interaction-induced fluorescence quenching, which is attributed to the substitution of Phe on the surface of chiral PNA by heterochiral Pro. This work suggests that chiral perovskite can be used for chiral fluorescence sensing; it will inspire the development of chiral nanomaterials and chiral optical sensors.

Topics & Concepts

ChemistryEnantiomerChirality (physics)FluorescenceQuenching (fluorescence)NanomaterialsRacemic mixtureCombinatorial chemistryPhotochemistryStereochemistryNanotechnologyChiral symmetry breakingMaterials scienceNambu–Jona-Lasinio modelQuantum mechanicsQuarkPhysicsMolecular spectroscopy and chiralityMolecular Sensors and Ion DetectionPerovskite Materials and Applications