Molecular tailoring strategies for the controlled assembly of high-nuclearity sulfide-bridged metal clusters

Lao-Bang Wang Yaoyao Peng Yu Fang Jian-Ping Lang

引用本文: Lao-Bang Wang, Yaoyao Peng, Yu Fang, Jian-Ping Lang. Molecular tailoring strategies for the controlled assembly of high-nuclearity sulfide-bridged metal clusters[J]. Chinese Journal of Structural Chemistry, 2026, 45(1): 100768. doi: 10.1016/j.cjsc.2025.100768 shu
Citation:  Lao-Bang Wang,  Yaoyao Peng,  Yu Fang,  Jian-Ping Lang. Molecular tailoring strategies for the controlled assembly of high-nuclearity sulfide-bridged metal clusters[J]. Chinese Journal of Structural Chemistry, 2026, 45(1): 100768. doi: 10.1016/j.cjsc.2025.100768 shu

Molecular tailoring strategies for the controlled assembly of high-nuclearity sulfide-bridged metal clusters

摘要: Metal sulfide-bridged clusters exhibit unique topologies and functional properties, offering potential for advanced materials and biomimetic systems. However, challenges persist in their controlled synthesis, particularly in precise sulfide incorporation and structural modulation to form high-nuclearity clusters. Herein, we report an in-situ molecular tailoring strategy using protonation of the [Tp*WS3]- synthon by NH4+ to gradually release S2- ions, which react with in situ formed fragments such as [Tp*WS3Cu3]2+ and [Tp*WS3Cu2]+. Under the cooperative influence of Cl-, CN-, or Cu+, three low-nuclearity clusters with complex polyhedral structures are assembled. Solvent-induced post-scissoring and reassembly of these precursors afford two unprecedented high-nuclearity clusters with novel topological frameworks. Thin films derived from single crystals of all five clusters display significantly enhanced third-order nonlinear optical (NLO) responses compared to their solution-state counterparts. Importantly, the high-nuclearity clusters display NLO responses surpassing not only those of their precursors but also the additive contributions of the individual units. Density functional theory (DFT) calculations attribute this enhancement to improved intracluster charge separation and synergistic interactions via linkers. This work establishes a versatile platform for constructing high-nuclearity metal sulfide clusters and provides new insights into designing functional analogues of nitrogenase-active sites.

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