物理与能源学院2017年学术报告(十一): Predictive modeling of 2D materials, synthesis to properties
  • 来源:深圳大学物理与能源学院
  • 发布者:学生组织
  • 发布时间:2017-04-11 15:58:00
  • 浏览次数:53
  • 报告主题:Predictive modeling of 2D materials, synthesis to properties

    报告人:美国莱斯大学  Boris Yakobson教授

      间:2017412日(周三)上午11:00-12:00

      点:南区物理与能源学院N1206会议室

     

    报告摘要:

    Comprehensive tools of materials modeling are derived from the principles of physics and chemistry, empowered by high performance computing. Together, this allows one to make verifiable predictions of novel physical structures with specific, often useful or even extraordinary, properties. After introducing a general “nano-reactor” framework, examples from our work will be presented, first being growth of graphene [1], and then explaining unusual morphology of metal dichalcogenides MX2 [2], where a combination of DFT and phase-field simulations proves useful. Third, we will discuss new physics emerging in heterojunctions, in either stacked or coplanar configurations.

     

    参考文献:

    [1]  V. Artyukhov et al. Phys. Rev. Lett. 114, 115502 (2015)  

    [2]  X. Zou et al. Nano  Lett. 13, 253 (2013) ||  X. Zou and BIY, Small, 11, 4503 (2015) || V. A. - Z.Hu et  al. Nano Lett. 16, 3696  (2016).

    [3]  J. Yuan, Z. Zhang et  al. ACS Nano, 9, 555 (2015) || H. Yu, A. Kutana  et al. Nano Lett. 16, 5032 (2016).

     

    报告人简介:

      Prof. Yakobson is the Karl F.  Hasselmann Chair in Engineering.He holds a joint appointment between the  Department of Mechanical Engineering and Materials Science and the Department of  Chemistry. In 2008, Yakobson received a Nano 50 Award from the science magazine,  Nanotech Briefs, for his innovation in nanotechnology, and in 2009, the  Department of Energy R&D Award. He received his Ph.D. in 1982 from the  Russian Academy of Sciences. He has published 400 papers, including 4 papers in  Nature and Science, 20 papers in PNAS, Nature Materials, Nature Nanotechnology,  Nature Chemistry and Nature Communications, 40 papers in Physical Review  Letters, 40 papers in Advanced Materials, Nano Letters and Acs  Nano.

     

    欢迎各位老师和同学积极参加!