Metal-Decorated Porous Organic Polymers:Bridged the Gap between Organic and Inorganic Scaffolds

Comprehensive Summary Advanced functionalization-decorated porous organic polymers(POPs)are emerging as a prominent research focus,spanning from their construction to applications in gas storage and separation,catalysis,energy storage,electrochemistry,and other areas.Furthermore,the inherent organic nature,tailored pore structures,and adjustable chemical components of POPs offer a versatile platform for the incorporation of various metal active sites.Meticulously designed molecular building blocks can serve as organic ligands uniformly distributed throughout POPs,leading to the effective isolation of inorganic metal active sites at the molecular level.In this manner,POPs containing active metal centers bridge the gap between organic and inorganic scaffolds.This review aims to provide an overview of recent research progress on metal-decorated POPs,focusing on strategies for incorporating metal active sites into POPs and their applications in adsorption,separation,catalysis,and photoelectrochemistry.Finally,current challenges and future prospects are discussed for further research.