Template-Assisted Synthesis of Isomeric Copper(I) Clusters with Tunable Structures Show Photophysical and Electrochemical Properties
Jun-Jie Fang, Zheng Liu, Yang-Lin Shen, Yun-Peng Xie,* and Xing Lu*
Chemical Science
https://pubs.rsc.org/en/Content/ArticleLanding/2023/SC/D3SC04682F
Abstract
Comparative study of structure-property relationships in isomeric and isostructural atomically precise clusters is an ideal approach to unravel their fundamental properties. Herein, seven high-nuclearity copper(I) alkynyl clusters utilizing template-assisted strategies were synthesized. Spherical Cu36 and Cu56 clusters are formed with a [M@(V/PO4)6] (M: Cu2+, Na+, K+) skeleton motif, while peanut-shaped Cu56 cluster features four separate PO4 templates. Experiments and theoretical calculations suggested the photophysical properties of these clusters are dependent on both the inner templates and outer phosphonate ligands. Phenyl and 1-naphthyl phosphates-protected clusters exhibited enhanced emission features attributed to numerous well-arranged intermolecular C−H···π interactions between the ligands. Moreover, the electrocatalytic CO2 reduction properties suggested internal PO4 templates and external naphthyl groups could promote an increase in C2 products (C2H4 and C2H5OH). Our research provides new insight into the design and synthesis of multifunctional copper(I) clusters, and highlights the significance of atomic-level comparative studies of structure-property relationships.
