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Dr. Chenmu Zhang: Ab initio Electronic Transport: From Two-dimensional Semiconductors to Nanoscale Metals (2024/11/28)

( 2024-11-25 )
题目

Ab initio Electronic Transport: From Two-dimensional Semiconductors to Nanoscale Metals


报告人


Dr. Chenmu Zhang (张晨沐)

Rice University, USA



时间

2024年11月28日(星期四)下午4:00

地点

物质科学教研楼B902会议室

报告人简介

张晨沐,2018年在中国科学技术大学获得学士学位,2023年在美国University of Texas at Austin获得博士学位,现在Rice University做博士后工作。主要研究方向为第一性原理计算以及电子声子相互作用。相关工作在Physical Review LettersPhysical Review BACS NanoAdvanced Functional Materials等期刊上发表。

报告摘要

Over the past few decades, Moore’s Law has been a driving force behind the exponential increase in integrated circuits capabilities, significantly impacting technology and society. However, the continuation of Moore’s Law is being called into question as the continuous shrinking of electric circuits approaches physical limitations: conventional semiconductors and metals in transistors and interconnects exhibit undesirable resistivity increases when reduced to the nanoscale, which degrades circuit’s performance. Thus, the need for 2D semiconductors and better metals with fewer dimensional impacts has become increasingly urgent. In this talk, we present the development and utilization of first-principles calculations to predict the electronic transport of 2D semiconductors and metal films. For 2D semiconductors, the reduced dimensionality generally results in a larger “density of scattering”, leading to lower carrier mobility. By applying first-principles calculations and high-throughput screening, we predict several high-mobility (>1400 cm2V-1s-1) 2D semiconductors with extremely small effective mass and/or weak electron-phonon coupling, thus avoiding the “dimensional curse”. For metal films, we develop a new first-principles transport method and apply it to copper films with different orientations. We found that, in contrast to common belief, the compact surface (111) has stronger scattering than that of the open one (001), which can be explained by the symmetry of the electronic structure.  



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