20241019_Br的电子效应促进贵金属催化剂选择性加氢的论文发表于Chem. Eng. J., 祝贺2022级研究生陈鑫泰！

Click here: Electronic effect in bromide-modified noble metal catalysts promotes highly stable and selective hydrogenation - ScienceDirect

Xintai Chen,¹ Mengqi Yang,¹ Qiying Liu,² Xiaoling Mou,^1,3* Linbin Ying,⁴ Yu Meng,^4* Ronghe Lin,^1,3*and Yunjie Ding^1,5,6*

ABSTRACT

Halides with strong affiliation to metals are traditionally viewed as positions in heterogeneous catalysis. This study introduces a method to enhance the selective hydrogenation performance of noble metal nanoparticle catalysts (Pd, Pt, and Rh hosted on N-doped carbon, SiO₂, and Al₂O₃) by gas-phase bromination with 1-bromooctane. Brominated Pd catalysts, particularly those supported on N-doped carbon, show significant improvements in total butene selectivity and stability in butadiene hydrogenation reactions, displaying >97.5% selectivity to total butenes at complete conversion with 50 hours stable performance even at excessive H₂ (H₂:butadiene = 50) and a high temperature of 473 K. Comprehensive characterizations coupled with density functional theory calculations reveal that bromide species enhance selective hydrogenation by preferentially adsorbing at stepped Pd sites, altering reaction kinetics and preventing over-hydrogenation. Bromination influences reactant and intermediate adsorption, leading to increased competitive adsorption compared to pristine catalysts. Chemisorption studies on butadiene and 1-butene support altered kinetic behaviors post-bromination. X-ray photoelectron spectroscopy analysis demonstrate an increase in surface Pd^d+ species, owing to the electron-pulling character of nearby adsorbed bromide. In situ diffuse reflection infrared Fourier transform spectroscopy with CO probe molecules confirms Br species adsorption at unsaturated Pd sites. Overall, the study provides an effective approach to tuning the electronic properties of metal catalysts and highlights the positive impact of bromination on improving the hydrogenation performance.