2019厦门软物质论坛-生物仿生、杂化材料的基础研究以及柔性电子
https://rwz.xmu.edu.cn/smnep2019/index.htm
About the Forum
Soft condensed matter physics and the related subjects have attracted significant and broad attention across physicists, chemists, biologists, materials scientists and engineers. The occurrence of new ideas, new facilities and modern technologies has opened enromous opportunities in soft matter research. Apart from the “classical” soft materials,such aspolymers, liquid crystals and colloids,the occurrence of new high performance and functional materials, i.e.,bio-inspired soft matters, nanocomposites, and flexible electronics, enriches greatly the subjects of research in this field. As one of the most improtant research subjects inmaterials science,bio-inspired soft materials and inorganic-organic hybrid materials have received increasing attention due to the unique physical and chemical properties. In this regard, the advances in the knowledge of materials formation kinetics and understanding the fundamental mechanisms of crystal growth and self-assembly will lay out the key foundation for further materials designtoward the predictive materials synthesis.
Concerning the smart and functional soft matters and hybrid materials, we notice that living organisms produce a wide variety of unique examples, such as hierarchically-structured protein machines for photo synthesis, tooth and bone minerals with superior mechanical property. Over there, the high information content of specialized biomacromolecules (e.g. proteins, peptides and carbohydrates) enables 1) hierarchical organization to assemble scaffold materials and execute high-level functions; and 2) precise control over inorganic crystal formation and assembly, ultimately giving rise to minerals with versatile functions. Inspired by nature, significant efforts been made towards developing the ability to mimic in vivo functions of these biomacromolecules by using engineered proteins, peptides, DNA, sequence-defined synthetic molecules (e.g. peptoids) and other biomimetic polymers. These efforts address one of the grand challenges of materials science—to design and synthesize functional materials thatrival those found in biology and exhibit various potential applications.
As a very important application of soft matter research, flexible electronics has become one of the trends for the development of electronic products. As another theme of this forum, we will look into the recent update in the area of flexible electronics, ranging from materials synthesis strategy to the electronics device design, fabrication, and applications.
This conference aims to offer a worldwide outstanding forum in the area soft matter. We will use Gordon Research Conference (GRC) like style for reporting the latest discovery and progress in the area of bio-inspired soft matters and hybrid materials, and flexible electronics, which will benefit the worldwide multidisciplinary collaborations.
Topics of the Forum
The forum will cover in the followingtopics:
Biomimetic formation of inorganic (nano) crystals and nanocomposites
In situ characterization of bio-inspired assembly and bio-controlled crystal formation
Theory driven design of (bio) macromolecules for self-assembly and for controlling inorganic crystal formation.
Hierarchical assembly of (bio) macromolecules into nanostructured materials.
Synthesis and functionalization of flexibleelectronicsmaterials
Electronics device design
Fabrication and applications of flexible electronics
List of Confirmed Invited Speakers
(Names are sorted alphabetically)
Fundamentals of Bio-inspired Soft Matters and Hybrid Materials:
Chun-Long Chen (Pacific Northwest National Laboratory and University of Washington)
Christpher Li (Drexel University)
Francois Baneyx (University of Washington)
Helmut Coelfen (Universität Konstanz)
Huizhang Guo (ETH Zurich)
Jim De Yoreo (Pacific Northwest National Laboratory and University of Washington)
Jim Pfaendtner (University of Washington)
Ki Tae Nam (Seoul National University)
Lilo Pozzo (University of Washington)
Zhongcan Ouyang (Institute of Theoretical Physics, Chinese Academy of Sciences)
Nico Sommerdijk (Nico Sommerdijk, Netherlands)
Robert O. Ritchie (University of California, Berkeley)
Ruikang Tang (Zhejiang University)
Rebecca Schulmann (Johns Hopkins University)
Samson Jenekhe (University of Washington)
Shaoyi Jiang (University of Washington)
Xiang Yang Liu (Xiamen University/ National University of Singapore)
Yi Lu (University of Illinois at Urbana-Champaign)
Yurong Ma (Beijing Institute of Technology)
Yu Huang (University of California, Los Angeles)
Zhiqun Lin (Georgia Institute of Technology)
Flexible Electronics:
Dong Ha Kim (Ewha Womans University)
Hao Wu (Huazhong University of Science and Technology)
Jinwei Gao (South China Normal University)
Jiajie Liang (Nankai University)
Liqiang Mai (Wuhan University of Technology)
Wentao Xu (Nankai University)
Wei Huang (Northwestern Polytechnical University)
Xinyu Xue (Chengdu University of Electronic Science and Technology)
Xi Xie (Sun Yat-Sen University)
Qiuming Yu (University of Washington, USA)
Xinge Yu (City University of Hong Kong )
Xiangyu Xu (Beijing institute of nanoenergy and nanosystems, Chinese Academy of Sciences)
Yannan Xie (Nanjing University of Posts and Telecommunications)
Ya Yang (Beijing institute of nanoenergy and nanosystems, Chinese Academy of Sciences)
Zhuo Li (Fudan University)
Zhou Li (Beijing institute of nanoenergy and nanosystems, Chinese Academy of Sciences)
Zuankai Wang (City University of Hong Kong)
Tentative Speakers:
Wenzhuo Wu (Purdue University)
Youfan Hu (Peking University)
Zhong Lin Wang (Georgia Institute of Technology/Beijing Institute of Nanoenergy and Nanosystems, Chinese Academy of Sciences)
口头报告,摘要和墙报
本论坛除了设置主题演讲/邀请报告,还设置口头报告和墙报,欢迎相关研究人员、研究生提交口头报告或墙报申请,请联系Chun-Long Chen (chun long.chen@pnnl.gov)提出“生物启发软物质和杂化材料基础”部分的申请,联系郭文熹(wxguo@xmu.edu.cn)提出“柔性电子”部分的申请。会议报告语言为英语。请于2019年8月1日至9月25日将会议摘要和个人简介( template.docx)和墙报(尺寸:长120cm×宽90cm)提交给林乃波(linnaibo@xmu.edu.cn) |