Boosting Chemoselective Hydrogenation of Nitroaromatic via Synergy of Hydrogen Spillover and Preferential Adsorption on Magnetically Recoverable Pt@Fe<sub>2</sub>O<sub>3</sub>
Guichu Yue, Yu Yu, Shuai Li, Huaike Li, Songwei Gao, Yaqiong Wang, Wei Guo, Nü Wang, Xiuling Li, Zhimin Cui, Changyan Cao, Lei Jiang, Yong Zhao
Abstract
Abstract It is highly desired but challenging to design high performance catalyst for selective hydrogenation of nitro compounds into amino compounds. Herein, a boosting chemoselective hydrogenation strategy on Pt@Fe 2 O 3 is proposed with gradient oxygen vacancy by synergy of hydrogen spillover and preferential adsorption. Experimental and theoretical investigations reveal that the nitro is preferentially adsorbed onto oxygen vacancy of Pt@Fe 2 O 3 , meanwhile, the H 2 dissociated on Pt nanoparticles and then spillover to approach the nitro for selective hydrogenation (>99% conversion of 4‐nitrostyrene, > 99% selectivity of 4‐aminostyrene, TOF of 2351 h −1 ). Moreover, the iron oxide support endows the catalyst magnetic retrievability. This high activity, selectivity, and easy recovery strategy provide a promising avenue for selective hydrogenation catalysis of various nitroaromatic.