论文部分内容阅读
2017先进功能材料与原子力显微技术国际研讨会(AFM2 2017)中国地质大学(武汉)会议中心2017年12月8-10日http://afm~2017.conf.scholarset.com/第一轮通知纳米材料与器件在过去二十余年迅猛发展:一方面,材料性能日益多功能化,常常集力、电、磁、热、光等多场耦合效应于一身;另一方面,材料的微观结构也变得更加复杂而富有层次,对其宏观性能产生深远影响。当前,在纳米尺度调控并测量材料的电、光、磁、力、热及其耦合响应时机已经到来,而这也是推动先进功能材料与器件发展的大势所趋。
2017 International Symposium on Advanced Functional Materials and Atomic Force Microscopy (AFM2 2017) China University of Geosciences (Wuhan) Conference Center December 8-10, 2017 http: //afm-2017.conf.scholarset.com/ First Round Notice Nanomaterials and devices have developed rapidly over the past two decades: on the one hand, materials are increasingly multifunctional and often have many coupling effects such as electricity, magnetism, heat, light and the like; on the other hand, the microstructure Has also become more complex and rich in hierarchy, and has a profound impact on its macro performance. At present, it is time to regulate and measure the electrical, optical, magnetic, force, thermal and coupling response of materials at the nanoscale, which is also the trend of promoting the development of advanced functional materials and devices.