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Carborane-Cluster-Wrapped Copper Cluster with Cyclodextrin-like Cavities for Chiral Recognition.

Jia-Hong HuangYa-Jie LiuYu-Bing SiYao CuiXi-Yan DongShuang Quan Zang
Published in: Journal of the American Chemical Society (2024)
Chiral atomically precise metal clusters, known for their remarkable chiroptical properties, hold great potential for applications in chirality recognition. However, advancements in this field have been constrained by the limited exploration of host-guest chemistry, involving metal clusters. This study reports the synthesis of a chiral Cu 16 (C 2 B 10 H 10 S 2 ) 8 (denoted as Cu 16 @CB 8 , where C 2 B 10 H 12 S 2 H 2 = 9,12-(HS) 2 -1,2- closo -carborane) cluster by an achiral carboranylthiolate ligand. The chiral R -/ S -Cu 16 @CB 8 cluster features chiral cavities reminiscent of cyclodextrins, which are surrounded by carborane clusters, yet they crystallize in a racemate. These cyclodextrin-like cavities demonstrated the specific recognition of amino acids, as indicated by the responsive output of circular dichroism and circularly polarized luminescence signals of Cu 16 moieties of the Cu 16 @CB 8 cluster. Notably, a quantitative chiroptical analysis of amino acids in a short time and a concomitant deracemization of Cu 16 @CB 8 were achieved. Density functional tight-binding molecular dynamics simulation and noncovalent interaction analysis further unraveled the great importance of the cavities and binding sites for chiral recognition. Dipeptide, tripeptide, and polypeptide containing the corresponding amino acids (Cys, Arg, or His residues) display the same chiral recognition, showing the generality of this approach. The functional synergy of dual clusters, comprising carborane and metal clusters, is for the first time demonstrated in the Cu 16 @CB 8 cluster, resulting in the valuable quantification of the enantiomeric excess ( ee ) value of amino acids. This work opens a new avenue for chirality sensors based on chiral metal clusters with unique chiroptical properties and inspires the development of carborane clusters in host-guest chemistry.
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