- 学历/学位: 研究生学历/博士学位
- 研究方向: 工业催化与新能源材料
- 邮箱: fbsu@ipe.ac.cn
- 地址: 北京市海淀区中关村北二街1号
- 邮编: 100190
- 课题组网站:
简历介绍
苏发兵,男,1968年出生,研究员,博士生导师,中科院百人计划获得者。1991年本科毕业于清华大学化学工程系,1994年于防化研究院获得环境化工硕士学位并工作8年,2005年于新加坡国立大学化学工程系获得博士学位,师从国际多孔材料和催化专家赵修松(george zhao)教授,并留该系做博士后一年; 2006年于英国利物浦大学化学系donnan and robert robinson (诺贝尔奖获得者)实验室做博士后,合作导师为国际多孔聚合物材料与应用专家andrew i. cooper 教授;2008年于新加坡化学与工程科学研究院从事工业催化材料的研发;2009年10月加入中国科学院过程工程研究所,并组建能源催化与多孔材料课题组()。 主要研究领域包括:(1) co/co2甲烷化催化转化技术;(2)硅氧烷、氯硅烷等硅基单体化学品合成催化转化技术;(3)脱销、脱硫、催化燃烧、吸附分离等环保净化材料。已发表文章220多篇,包括national science review、journal of the american chemical society、angewandte chemie international edition、advanced materials等,引用次数超过17000次,h-index为57,申请各类专利共计70多件(国际、英国、美国和中国发明专利等),转让发明专利14件。参加或应邀参加各类国内国际学术研讨会议和讲座60多次。培养指导的研究生曾获得“宝钢奖学金”、“朱李月华奖学金”、“宝洁奖学金”、“国家奖学金”、“中国科学院院长优秀奖”、“京博化学化工与材料优秀博士论文奖”、“北京市优秀博士毕业生”等奖项,多个研究生获得国家公派留学资格或国外奖学金去国外大学深造。课题组目前承担并完成多项科研项目,研发的有机硅单体合成高效铜基催化剂获得2011年中国产学研合作创新成果奖,获得2012年中国颗粒学会-赢创颗粒学创新奖,2022年度中国化工学会基础研究成果奖一等奖(排名第二)、2022年度中国颗粒学会颗粒学奖自然科学二等奖(排名第一)。研发的多个催化材料已在企业转移转化并实现工业生产和应用。曾担任国家相关人才计划、教育部“长江学者特聘教授”、“青年拔尖人才”、北京市科学技术奖、科技部重点专项等评审专家。
代表论著
1.tengfei zhang1, peng zheng1, fangna gu*, wenqing xu*, wenxing chen*, tingyu zhu, yi-fan han, guangwen xu, ziyi zhong*, and fabing su*. dual-active-site tandem catalyst with ru single atoms and ni nanoparticles boosts co2 methanation. applied catalysis b: environmental 2023, 323:122190
2.heng zhang, baofang jin*, yongxia zhu, liqing ban*, kangjun wang*, jing xu, jiajian gao*, ziyi zhong, guangwen xu, and fabing su*. deciphering the promoting mechanism of sno2 to cu2o in the rochow-m ller reaction. journal of catalysis 2023, 425:143-154.
3.yongjun ji1*, xiaoli chen1, shaomian liu1, shaojia song1, wenqing xu*, ruihuan jiang, wenxing chen, huifang li, tingyu zhu, zhenxing li*, ziyi zhong, dingsheng wang, guangwen xu, and fabing su*. tailoring the electronic structure of single ag atoms in ag/wo3 for efficient no reduction by co in the presence of o2. acs catalysis 2023, 13:1230-1239.
4.shaomian liu1, wenjuan xue1, yongjun ji*, wenqing xu*, wenxing chen*, lihua jia, tingyu zhu, ziyi zhong, guangwen xu, donghai mei*, and fabing su*. interfacial oxygen vacancies at co3o4-ceo2 heterointerfaces boost the catalytic reduction of no by co in the presence of o2. applied catalysis b: environmental 2023, 323:122151
5.yongjun ji1*, shaomian liu1, hongdan zhu1, wenqing xu*, ruihuan jiang, yu zhang, jian yu, wenxing chen, lihua jia, jingang jiang*, tingyu zhu, ziyi zhong, dingsheng wang, guangwen xu, and fabing su*. isolating contiguous ir atoms and forming ir-w intermetallics with negatively charged ir for efficient no reduction by co. advanced materials 2022, 34, 220570.
6.jing xu1, shaojia song1, yongxia zhu1, baofang jin, yongjun ji*, zhenxing li*, dongxing fu, ziyi zhong*, guangwen xu, fabing su*. enhancing dimethyldichlorosilane production in rochow-m ller reaction by adding zno-sn-p co-promoter in cuo/sio2. journal of catalysis 2022, 410: 280-293
7.qiongguang li, menglei yuan, yongjun ji, xiao chen, yanhong wang*, xingyue gao, huifang li, hongyan he, han chen*, qiangqiang tan, guangwen xu, ziyi zhong, and fabing su*. atomically dispersed sn incorporated into carbon matrix for stable electrochemical lithium storage. chemical engineering journal 2022, 437:135340
8.qi shi, yongjun ji*, wenxin chen, yongxia zhu, jing li, hezhi liu, zhi li, shubo tian, ligen wang*. ziyi zhong, limin wang*, jianmin ma, yadong li, and fabing su*. single-atom sn-zn pairs in cuo catalyst promote dimethyldichlorosilane synthesis. national science review 2020, 7: 600-608.
9.zailei zhang, yanhong wang, wenfeng ren, qiangqiang tan, yunfa chen, hong li, ziyi zhong, and fabing su*. scalable synthesis of interconnected porous silicon/carbon composites by the rochow reaction as high-performance anodes of lithium ion batteries. angewandte chemie international edition 2014, 53:5165-5169.
10.fabing su*, lu lv, fang yin lee, tao liu, andrew i. cooper, xiu song zhao*. thermally reduced ru nanoparticles as a highly active heterogeneous catalyst for hydrogenation of monoaromatics. journal of the american chemical society 2007, 129: 14213-14223.