10月27日下午15:30-16:30,在北京化工大学昌平校区B405教室,法国巴黎国家高等化学学校的常务副校长、我校兼职教授Michael Tatoulian为巴黎居里工程师学院2017级全体学生做了一次科普型学术讲座。
讲座上,同学们认真倾听Tatoulian教授给同学们讲授关于先进的等离子体处理技术用于材料和化学反应的知识。
讲座概要:
等离子体技术开始应用于70世纪的材料表面改性,在微电子和半导体领域。等离子体的优点在于能够在低温下产生化学活性和物理活性的活性物种。报告了低压和常压等离子体成功应用于表面改性和薄膜生长的最新进展。我们也提出了一个新的等离子/液晶微反应器,已经发展到用于生成和注入自由基物种,目的是在液相中进行化学合成反应,这样的微反应器打开了非常有前途的化学合成前景。
讲座开始前,校领导与教授一行合影留念。
Michael TATOULIAN教授
Chimie ParisTech
PSLResearch University
CNRS
IRCP
F-75005 Paris
01
教育经历
1991:M. Sc. in chemistry, Pierre et Marie Curie University (UPMC) m
1995:Ph.D. in chemical engineering, Pierre et Marie Curie University (UPMC)
2005:Habilitation in chemical engineering, Pierre et Marie Curie University
02
工作经历
1996
Assistant Professor, Pierre et Marie Curie University (UPMC)
2005
Associate Professor, Pierre et Marie Curie University (UPMC)
2007
Full Professor in chemical engineering, Chimie ParisTech
Since 2011
Scientific coordinator and member of the striring committee of the Pierre Gilles de Gennes Institute for Microfluidics for ENSCP Chimie ParisTech
2012-2014
Director of the Plasma Processing and Plasma Chemistry Laboratory
Since 2014
Head of the group “Plasma, Processes, Microsystems” at IRCP-
ENSCP
Since 2015
Deputy Director of Chimie ParisTech
个人简介
Michael Tatoulian received his Ph.D. degree in chemical engineering from Pierre et Marie Curie University (UPMC)–Paris 6 (Paris, France). Michael Tatoulian is currently full professor in chemical engineering at Chimie Paristech, head of the group « Plasma, processes, Microsystems ». He is an expert on plasma processing, and since 2000, he has developed specific surface treatment devoted to biomaterials, development of catalytic microreactors, and microfluidics systems in close collaboration with Dr Patrick Tabeling (Director of MMN at ESPCI, and director of IPGG). He is the author of 140 scientific papers (72 in peer reviewed journals), 3 patents, 8 keynotes, 2 plenary presentations and 35 invited talks. His group is specialized in the surface modifications of different materials (polymers, glass, steel…) by plasma technology and it has also a solid expertise in targeting plasma-based processes to industrial applications, and holds recent patents. His research group reached in 2013 the new institute named “Institut Pierre Gilles de Gennes pour la microfluidique”, aiming to develop applications of microfluidics and microreactors. In that context, a large part of his research work is now dedicated to the development of novel plasma millireactors for chemical synthesis and valorisation of CO2, CH4 through the formation of liquid fuels.
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