报告人:Prof.Peng Jiang University of Florida
报告时间:2013年7月8日上午10:30
报告地点:江苏省生物材料与器件重点实验室会议室(蓝楼三楼会议室)
摘要:
We have developed a versatile spin-coating technique that combines the simplicity and cost benefits of bottom-up colloidal self-assembly with the scalability and compatibility of standard microfabrication. The methodology is based on shear-aligning concentrated colloidal suspensions using standard spin-coating equipment. It enables rapid production of colloidal photonic crystals with remarkably large domain sizes and unusual non-close-packed structures, as well as a myriad of functional nanostructured materials, including plasmonic metallic nanostructures, macroporous polymers, 3-D ordered nanocomposites, attoliter microvial arrays, and more. The spin-coating process also provides a new route to study the fundamental aspects of shear-induced crystallization, melting and relaxation. The broad applications of the assembled periodic nanostructures in smart materials, plasmonic biosensing, and biomimitic broadband antireflection coatings will also be discussed.
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