CsPbX3 Nanocrystal Incorporating Transition Metal Cocatalyst for Photocatalytic Organic Transformation by Single Electron Transfer

Abstract

ABSTRACTThe construction of composite photocatalysts is a promising strategy for improving the overall catalytic efficiency in organic photochemical transformation. In this study, we synthesize a series of inorganic metal perovskite CsPbX3 (X = Cl, Br, I) nanocrystals (NCs) with excellent chemical stability and wide‐range visible‐light absorption. The Pd cocatalyst is then induced to the surfaces of CsPbX3 fabricating Pd/CsPbX3 composites via visible‐light reduction method. Photoelectrochemical measurements show the introduction of Pd cocatalyst promotes efficiently the charge separation and transfer of CsPbX3. The prepared Pd/CsPbX3 composites exhibit remarkable photocatalytic efficiency in visible‐light‐induced C–C cross‐coupling reaction. The reaction is characterized by mild reaction conditions, good recyclability, and high yield from a broad variety of substrates. Mechanism investigations show the reaction relies on the synergy of CsPbX3 photocatalysis and Pd catalysis. The valence band of CsPbX3 oxidizes the phenylboronic acid into active radical species via single electron transfer. On another hand, Pd(0) as active sites occurs oxidative addition with aryl halides for achieving the C–C cross‐coupling reaction. This study displays a feasible approach for the introduction of Pd catalyst in CsPbX3 to achieve the photocatalytic organic transformation via photoinduced electron transfer.