足球365比分_365体育投注-直播*官网

图片
今天是
今日新发布通知公告1条 | 上传规范

物理学院“博约学术论坛”系列报告 第 191 期 (2019年第 6期)

来源:   发布日期:2019-01-11

题目:2D thermoelectric materials: Role of the lattice thermal conductivity
报告人:Prof. Udo Schwingenschl?gl(King Abdullah University of Science and Technology, Saudi Arabia)
时  间:2019年1月16日(周三)上午 10:30
地  点:足球365比分_365体育投注-直播*官网理工大学中心教学楼501,良乡物理实验中心229转播

 

摘要 
We study the role of the lattice thermal conductivity in 2D thermoelectric materials by first-principles calculations. Specific examples include a comparison of Ti2CO2, Zr2CO2, and Hf2CO2 in order to evaluate the role of the metal atom. The lattice thermal conductivity is demonstrated to grow along the series Ti-Zr-Hf in the temperature range 300-700 K, resulting in the highest figure of merit in the case of Ti2CO2. Flat conduction bands promote the thermopower in the case of n-doping. Functionalization effects are studied for Sc2C, which is semiconducting for various functional groups, including O, F, and OH. The lowest lattice thermal conductivity is found for OH functionalization. Despite a relatively low thermopower, Sc2C(OH)2 therefore and due to a high electrical conductivity can be interesting for intermediate-temperature thermoelectric applications. We also discuss results on heterostructures built of MXenes and transition metal dichalcogenide monolayers. Low frequency optical phonons are found to occur as a consequence of the van der Waals bonding. They contribute significantly to the thermal transport and compensate for reduced contributions of the acoustic phonons (strong scattering in heterostructures), such that the thermal conductivities become similar to those of the constituent MXenes.

 

简历:
Dr. Schwingenschl?gl is a Professor of Materials Science & Engineering at King Abdullah University of Science and Technology (KAUST). His research interests in condensed matter physics and first-principles materials modeling focus on two-dimensional materials, interface and defect physics, correlated materials, thermoelectric materials, metal-ion batteries, nanoparticles, and quantum transport. Dr. Schwingenschl?gl joined KAUST as founding faculty member in 2008, having previously worked at the International Center of Condensed Matter Physics in Brasilia, Brazil, and the Universit?t Augsburg in Germany.

 

 

 

联系方式:物理学院办公室68913163
邀请人: 张用友
网    址:www.physics.bit.edu.cn