燃料化学学报(中英文)2026,Vol.54Issue(4):68-81,14.DOI:10.1016/S1872-5813(25)60631-1
Brønsted酸位与钼活性位点间距对Mo/HZSM-5催化剂甲烷脱氢芳构化反应机制的影响
Influence of the distance between Brønsted acid sites and Mo sites in Mo/HZSM-5 on the mechanism of methane dehydroaromatization performance
摘要
Abstract
Methane dehydroaromatization(MDA)presents a promising carbon-neutral pathway for benzene,toluene,and xylene(BTX)production,alternative to petroleum-derived routes.Elucidating the regulatory mechanisms of Brønsted acid site(BAS)strength on reaction pathways,alongside the spatial proximity effects between BAS and Mo active sites in bifunctional synergy,remains a critical scientific challenge in catalyst design.This study systematically tunes both BAS strength(via isomorphous metal substitution)and Mo-BAS spatial proximity in zeolites,integrating MDA catalytic evaluations with density functional theory(DFT)calculations to dissect their individual contributions.Strongly acidic BAS catalysts(compared to moderately acidic Fe/Ga-substituted counterparts)exhibit superior performance,evidenced by enhanced aromatic yields.Conversely,weakly acidic B-substituted zeolites demonstrate optimal mono-/bifunctional synergy,outperforming moderate-acid systems.DFT results reveal that acid strength dictates C-H activation mechanisms by modulating the energy barriers of rate-determining steps.While Al-zeolites deliver the highest activity,B-substituted systems display unique potential for mechanistic investigations.Spatial proximity analysis indicates that micrometer-scale Mo-BAS distances hinder effective synergy due to exceeding electron interaction and mass transfer limits,whereas nanometer-scale proximity enhances activity(via accelerated intermediate transport)and suppresses coke formation.These findings establish a theoretical framework for rationalizing zeolite catalyst optimization through BAS property engineering and spatial control of Mo-BAS cooperation,providing actionable guidelines for designing next-generation MDA catalysts.关键词
甲烷脱氢芳构化/布朗斯特酸/催化机理/沸石Key words
methane dehydroaromatization/Brønsted acid/catalytic mechanism/zeolite分类
化学化工引用本文复制引用
王策,魏砾宏,张清昊,张宏祥,孙悦文..Brønsted酸位与钼活性位点间距对Mo/HZSM-5催化剂甲烷脱氢芳构化反应机制的影响[J].燃料化学学报(中英文),2026,54(4):68-81,14.基金项目
Supported by the Science and Technology Major Project of Liaoning Province(2024JH2,1025000892),the Fundamental Research Funds for the Universities of Liaoning Province(LJ232410143051),Liaoning Provincial Science and Technology Program 2023JH1/10400006,Shenyang Science and Technology Program(24-213-3-09). (2024JH2,1025000892)
