报告题目:Visualizing Ultrafast Dynamical Phenomena in Nanomaterials by 4D Electron Microscopy
报 告 人:付学文 教授(南开大学)
主 持 人:韦小明 教授
报告时间:2020年12月4日(星期五)上午11:00
报告地点:物理楼(18号楼)二楼213室学术报告厅
物理与光电学院
2020年11月30日
报告摘要:
In the past decade, four-dimensional electron microscopy (4D-EM), which enables the direct observation of transient structures, morphologies and carrier transport of materials in real time and space, has attracted increasing interest to the research community due to its powerful capability in the interdisciplines of physics, chemistry, material science, and biology [1-3]. In this talk, I will firstly give a brief introduction of the development of 4D-EM and the state-of-the-art of its applications in research. Then I will present our recent development of liquid-phase 4D transmission electron microscopy and its first application in imaging Brownian dynamics and photochemical reaction dynamics of nanoparticles in liquid on the nanometer-nanosecond time scale [4-6]. Both the translational and rotational dynamics of individual nanoparticles were imaged in both diffusion and ballistic regimes, and a full transition from diffusive to superdiffusive, and further to ballistic rotation was revealed with increasing the asymmetry of the particles. With increasing laser fluence, photoinduced photomorphic reaction dynamics such as agglomeration, coalescence, and fusion dynamics of plasmonic nanoparticles in liquid were directly unraveled. This advanced liquid-phase 4D-EM opens a promising possibility for future study of numerous physical, chemical and biological dynamical processes in native environments. After that, I will talk about our recent development of 4D Lorentz-phase imaging and the latest study of magnetization dynamics and dynamical switching of magnetic vortices in ferromagnetic Permalloy disks [7], which extends the application of 4D-EM to the field of magnetization dynamics. In the end, I will introduce our recent development of low-cost, laser-free 4D-EM and its application in visualization of electromagnetic wave propagation dynamics in high frequency miniature electronic devices at nanometer and picosecond scales.
报告人简介:
付学文,南开大学物理科学学院教授,博士生导师,天津市杰出青年基金获得者,南开大学“百名青年学科带头人”,国家重点研发计划青年项目首席科学家。2014年获北京大学凝聚态物理博士学位(导师:俞大鹏院士),曾荣获北京市优秀博士毕业生、北京大学优秀博士毕业生和优秀博士论文奖。先后在美国加州理工学院(诺贝尔奖得主Ahmed Zewail教授研究组)和美国布鲁克海文国家实验室 (Yimei Zhu教授研究组)做博士后和助理研究员。2019年受聘于南开大学物理科学学院担任教授、博导,牵头建立了南开大学超快电子显微镜实验室。长期从事超快电子显微镜、超快阴极荧光等超高时空分辨电子成像与探测技术开发及其在低维量子功能材料的结构、载流子及自旋等动力学中的应用研究。在Science、Science Advances(3篇)、Nature Communications、Advanced Materials、PNAS、ACS Nano(4篇)、Nano Letters等知名国际期刊发表学术论文近40篇,获授权发明专利1项。研究成果多次被 Science、Phys.org、Physicsword、Nanotechweb、Advances in Engineering等科学媒体选为研究亮点进行报道。
