讲座通知:Nano Engineering and Additive Manufacturing Towards Innovative Thermal and Energy Systems

作者:杨涵点击:时间:2017-12-01

题目:Nano Engineering and Additive Manufacturing Towards Innovative Thermal and Energy Systems

报告人:Yanliang Zhang, Ph.D.

时间:12月5日(星期二)上午9:00

地点:动力与机械学院报告厅

欢迎广大师生踊跃参加!

 

About the Lecturer

Yanliang Zhang is an assistant professor and the Director of Advanced Manufacturing and Energy lab in the Department of Aerospace and Mechanical Engineering at University of Notre Dame. He received 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 high encouraged to attend his talk and meet Prof. Zhang after his seminar.

 

Abstract:

Nano engineering and additive manufacturing methods have led to many scientific and technology breakthroughs for thermal and energy related applications.

This talk will discuss several topics. First, this talk will present fundamental study of thermal 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.

The above research breakthroughs are on track to create a sustainable and commercially viable technology for automotive, industrial, electronics, and personal energy harvesting and thermal management applications.