报 告 题 目:Tunable selectivity towards alkenes and aromatics from syngas over Fe-based catalyst
报 告 人:马丁 研究员,北京大学
时 间:2017年7月20日(星期四)下午2:00
地 点:科研楼3层阶梯教室
邀 请 人:裘晓辉 研究员(Tel:82545583)
报告摘要:
Transformation of syngas (CO/H2) derived from shale gas, biomass and coal has been developed as a promising alternative to oil to prepare liquid fuels and commodity chemicals. Here we reported that Zn and Na modulated Fe catalysts can be fabricated through a simple co-precipitation/washing method. Zn greatly changed the size of iron species, serving as the structural promoter while the existence of Na on the surface of Fe catalyst alters the electronic structure of the catalyst, making it very active for CO activation. Most importantly, the unique electronic structure suppresses the hydrogenation of double bonds and promotes desorption of products, which confers the catalyst unexpected reaction patch towards the alkenes, especially C5+ alkenes, at the same time of lowering the selectivity towards underside products. A combination of Na-Zn-Fe5C2and hierarchical zeolite with uniform mesopores dramatically changed the product distri-bution of FTS, leading to 51% aromatic selectivity under the stable stage with CO conversion > 85%. C12+ heavy hydrocar-bons almost disappeared and the catalyst showed good stability. The hierarchical zeolitic structure and Brønsted acidity of zeolite can be precisely tuned by controlling alkali treatment conditions and ion-exchange degrees. It is the appropriate density and strength of the Brønsted acid sites and the hierar-chical pore structure of HZSM-5 that endows the catalyst un-precedented aromatics yield.
报告人简介:
马丁,北京大学化学与分子工程学院研究员,1996年毕业于四川大学化学系物理化学专业;2001年获中国科学院大连化学物理研究所理学博士学位;2000年美国国家高场实验室访问学者;2001-2005年在牛津大学和Bristol大学进行博士后研究;2005年入选中国科学院“百人计划”,同年担任大连化学物理研究所催化基础国家重点研究室副研究员。2007年晋升研究员;2009年担任北京大学化学与分子工程学院先进催化课题组组长,博士生导师。在费托合成、双金属催化体系、催化机理研究等方面取得系列进展:发表SCI论文160余篇,他引5000余次,h-index 40,近五年通讯作者工作有三篇他人引用100次以上;纳米催化项目获得2009年度辽宁省自然科学一等奖,2014年度北京大学王选青年学者奖。2016年入选英国皇家化学会会士。