A disulfur ligand stabilization approach to construct a silver(i)-cluster-based porous framework as a sensitive SERS substrate

Abstract

An atomically-precise silver(I)-cluster-based three-dimensional (3D) framework (UJN-1) stabilized by a ditiocarb (diethyldithiocarbamate) ligand has been unveiled for the first time by self-assembly. UJN-1 is composed of both Ag₉ clusters and Ag₅ subunits, of which the Ag₉ clusters are bonded with Ag₅ subunits by sharing the ditiocarb ligand to form a microporous 3,4-connected topological framework. The chemically reduced nano-sized derivative of UJN-1 exhibits highly sensitive surface enhanced Raman scattering (SERS) towards 4-mercaptobenzoic acid (4-MBA) signal molecules, which is ascribed to the porosity as well as the distribution of abundant crystalline Ag⁰ active sites. This work sheds light on a new bottom-up approach to construct SERS-active silver(I)-cluster-based 3D materials by disulfur ligand stabilization.