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劳伦斯伯克利国家实验室郑海梅博士来访

2011-09-20 15:03 来源:未知 浏览:

美国劳伦斯伯克利国家实验室首席研究员和主任科学家郑海梅博士将于9月23日到我校金属材料强度国家重点实验室微纳尺度材料与行为研究中心(CAMP-Nano)交流访问,届时将做精彩报告。
报告时间:2011年9月23日(周五)上午10:00
报告地点:材料学院/金属材料强度国家重点实验室215会议室
报告题目
Real Time Imaging Structural Transformation Dynamics of Materials摘要:
A critical challenge for the development of alternative energy resources is the inability to fabricate efficient and inexpensive energy conversion and storage devices. Any solution technologies rely on advanced functional materials. Understanding how materials grow, function, and transform dynamically at nanometer or atomic level is essential. In the first part of my talk, I will present our recent study on the phase transformation dynamics of copper sulfide nanocrystals. Copper sulfide has been studied extensively for solar cell applications and there are a number ofphases with the Cu:S ratio close to 2:1. Cu2S transforms from low- to high-chalcocite phase at 376 K (bulk). An understanding of the microscopic mechanisms of structural transformations is critical for controlling the metastability of the material and the long-term performance of the solar cell devices. We have been able to directly observe structural fluctuations within a single copper sulfide nanorod using an aberration-corrected transmission electron microscopy (TEM). We observed trajectories of structural transformations in individual nanocrystals with atomic resolution, which reveal an unprecedented level of details on the fluctuation dynamics, including nucleation, phase propagation,and pinning of structure domains by defects. The clear influence of the surface and interface energies on nucleation and pinning phenomena suggest strategies for stabilizing particular metastable structures. In the second part of the presentation, I will show our studies of growth trajectories of individual nanocrystals in solution using a microfabricatedliquid cell operating in a TEM. In situobservation of the dynamic growth of individual nanocrystals is expected to advance our understanding of nanocrystal growth mechanisms and future control of the solution processing of materials.
报告人简介 : 
郑海梅博士的研究领域属原位电子显微学在材料科学研究中的应用,特别是纳米和原子尺度的晶体生长和相变。共发表论文及专著40篇(部), 包括四篇Science, 一篇 Nature Materials, 合著著作一部。被引用次数共达约3000次。在国际学术会上做重要报告达几十次。现任劳伦斯伯克利国家实验室,材料科学部,首席研究员和主任科学家。