杨诺 杨诺教授来自国防科技大学。他的研究主要集中在声子工程的基础和应用研究上。他的兴趣主要集中在能量载流子的传输和能量转换,如热传输、热调制、热器件、热界面电阻、热电和太阳能水蒸发/冷凝等。至2024年9月,共发表通讯/第一作者文章情况为:108篇,8篇ESI高被引论文,他引~4600次,H指数47。入选爱思唯尔中国高被引学者,斯坦福大学全球前2%顶尖科学家 “终身科学影响力榜单”和“年度科学影响力榜单”。中国物理学会青年工作小组委员。CPL、CPB、《物理学报》和《物理》青年编委。 报告摘要 In recent years, with the rapid development of the smart society, our demand for new functional material hardware has been increasing. Thermal functional materials play an important role in thermal management, energy storage, and energy conversion. Phonons are lattice vibration waves and thermal energy carriers, which are the main energy carriers in dielectric solids. After electronic engineering and photon engineering, the research progress of phononics and phonon engineering has attracted much attention. Phonon engineering is a discipline that utilizes micro/nano-structured phonon devices to design and regulate phonon transport and conversion, playing a leading role in the design of thermal functional materials. The advancement of nanotechnology has also promoted the development of phonon engineering, thus there is an urgent need to understand the nanoscale phonon regulation and transport mechanisms. Professor Yang Nuo and his led heat transfer laboratory focus on fundamental and applied research on multi-scale heat transfer, thermal modulation, and thermal energy conversion. The report will introduce the research progress of the research group in the following areas: new mechanisms and phenomena of nanoscale thermal conductivity, new methods of thermal modulation, interface thermal conductivity, nano hotspots, size effects, etc. References
