Recent developments in porous metal chalcogenides for environmental remediation and sustainable energy

Abstract

Porous metal chalcogenides have emerged as promising materials for environmental remediation and sustainable energy generation. Their tunable optical band gap (from infrared to the visible range), highly polarizable surface, chemical activity, and adjustable structure make them attractive for various applications. This review summarizes the recent developments concerning the synthesis and characterization of multifunctional porous chalcogenide materials. It explores their remarkable potential in addressing environmental and energy challenges. Moreover, we discuss the several factors that affect the performance of porous metal chalcogenides, such as their microstructure, morphology, and chemical composition, to gain deeper insights into these materials. Finally, we highlight some of the key challenges and future research directions in the development of porous metal chalcogenides as effective and efficient materials for environmental remediation and sustainable energy generation.