北京理工大学长三角研究院

报告摘要：

Thermal conductivity is a fundamental physical property of solid materials. Obviously, a better knowledge of various impacts on thermal properties definitely can promote our understanding in the fundamental insights of solid materials, and facilitate the applications in related fields. Here the speaker will present their theoretical approach for controlling phonon transport in nanoscale materials through phonon engineering. The speaker will demonstrate the phonon coherent resonance effect on thermal conductivity of nanowires, the strain effect on the thermal conductivity of low-buckled 2D silicene, and the regulation of interfacial thermal conduction of 2D Janus heterostructure via a thermo-mechanical coupling. Finally, active control of thermal conductivity will be discussed.

报告人简介：

Gang Zhang obtained B. Sci and Ph. D. in physics at Tsinghua University in 1998 and 2002, respectively. He is currently a strategic scientist in Beijing Institute of Technology. Prior to that, he was a senior principal scientist in Institute of High Performance Computing (IHPC), A*STAR, Singapore (2013-2024), and a professor at Department of Electronics, Peking University (2010-2013). He has ground-breaking contribution in nanoscale thermal conduction and computational material science. He has published more than 360 referred papers, with citations over 30,000 and an h-index of 88. He serves as advisory board member of Nanoscale and Nanoscale Advances, advisory board member of ES Energy & Environment, technical committee member of IEDM, associate editor of Journal of Electronic Materials, associate editor of Frontiers in Physics, guest editor of Advanced Functional Materials and Science China. He is elected Fellow of American Physical Society (APS), and fellow of Institute of Physics (IOP), United Kingdom.

邀 请 人：刘永昌 特聘研究员

联 系 人：王慧颖 why@iphy.ac.cn

腾讯会议：694-974-029

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