学术报告201736-University of Notre Dame教授Yanliang Zhang学术报告会

发布者:史杨审核:yqk终审:发布时间:2017-11-27浏览次数:4595

【报告时间】20171130日上午9:30-11:00

【报告地点】玉泉校区曹光彪科技大楼324会议室

【报告题目】Thermoelectric energy conversion - Advanced Materials, Manufacturing and System Applications

【报告人】Yanliang Zhang

 

blob.pngYanliang Zhang is an assistant professor and the Directorof Advanced Manufacturing and Energy lab in the Department of Aerospace and Mechanical Engineering at University of Notre Dame. Hereceived Ph.D. degree in Mechanical Engineering from Rensselaer Polytechnic Institute in 2011. He is a recipient of the prestigious U.S. National Science Foundation Career Award, an IBM Fellowship awardee, and multiple best paper awards at international conferences.Dr. Zhang’s research has been sponsored by prestigious funding awards from U.S. Department of Energy and National Science Foundation, and he has directed several major multi-institutional research projects. Dr. Zhang’s research work has been published on top scientific journals of high impact,including Nature Materials, Science Advances, Advanced Materials, Nano Letters, Scientific Reports, Energy Conversion and Management, Applied Physics Letters, etc.

Prof. Zhang’s lab has multiple openings for PhD students and postdocs. Interested students are highly encouraged to attend his talk and meet Prof. Zhang after his seminar.

 

【报告摘要】

Advanced materials and manufacturing methods have led to many scientific and technology advancements on thermoelectric energy conversion. This presentation will discuss scalable nanomanufacturing and additive manufacturing methods to fabricate high-performance and low-cost thermoelectric materials and devices, new metrology for thermoelectric property measurement, and nanostructured thermoelectric systems for waste heat recovery applications.

This talk will discuss several topics. First, this talk will present fundamental study ofthermal and thermoelectric transport properties in nanostructured materials fabricated using scalable nanomanufacturing methods, which have led to significant increases in thermoelectric figure of merit ZT. Second, this talk will discuss novel additive manufacturing and interface engineering methods to fabricate efficient and flexible thermoelectric devices using colloidal nanocrystals which resulted in unprecedented high power density and ultralow cost. Third, this talk will discuss design, modeling and manufacturing of high-performance nanostructured thermoelectric generator systems for waste heat recovery applications. Finally, this talk will present a novel scanning thermal probe method to map thermal and thermoelectric properties of nanostructured materials with high spatial resolution.

 

 

 

附:

Multiple PhD student and postdoc openings at the University ofNotre Dame in US

The Advanced Manufacturing and Energy Lab directed by Prof. Yanliang Zhang at the University of Notre Dame (a top 15University inUS)have multiple fully-funded opening positions for PhD students and postdoc to work on cutting-edge research topics including nano engineering for thermal energy transport and conversion, additive manufacturing for functional materials and devices, and flexible and wearable sensor and energy harvesting devices. Interested students are highly encouraged to send resume to Prof. Zhang by email (yzhang45@nd.edu) before November 20th. Prof. Zhang will visit Zhejiang University on Nov. 30 and give a seminar, and he can schedule meetings with interested applicants.

The Advanced Manufacturing and Energy Lab (AMEL) focuses on cutting-edge research on additive- and nano- manufacturing, thermal science and energy conversion, and advanced energy and sensor technologies. We integrate an “Atomic to System Engineering” approach to close the gap between basic research and system applications in order to change the world we are living in. Prof. Zhang is a recipient of the prestigious career award from U.S. National Science Foundation. Prof. Zhang’s research has been sponsored by competitive funding awards from U.S. Department of Energy and National Science Foundation, and he has directed several multi-institutional research projects with total funding exceeding $10 million. Dr. Zhang’s research work has been published on numerous scientific journals of high impact including Nature Materials, Science Advances, Advanced Materials, Nano Letters, Scientific Reports, Energy Conversion and Management, Applied Physics Letters, etc. More information about his research can be found from our lab website: https://ame.nd.edu/zhanglab.

Being a top-ranked research university in US, Notre Dame offers highest quality education and outstanding research opportunities. Notre Dame is located in the heart of the Midwest adjacent to several major cities (Chicago, Indianapolis, etc.), is surrounded by a dozen of other major research universities, national labs and high-tech companies.