校电气信息工程学院邀请，美国北卡罗来纳州立大学Thomas Henry LaBean教授来校做“ENGINEERING MOLECULAR ASSEMBLY FOR APPLICATIONS IN ELECTRONICS AND MEDICINE”学术报告。具体事宜如下：

报告题目：ENGINEERING MOLECULAR ASSEMBLY FOR APPLICATIONS IN ELECTRONICS AND MEDICINE

报 告 人：Thomas Henry LaBean

报告时间：2016年6月3日上午 9:00到下午5:00   

报告地点：西二楼301

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科技处

电气信息工程学院

二0一六年五月三十一日

附：Thomas Henry LaBean教授简介及报告摘要

简介：Thomas Henry LaBean博士,美国北卡罗来纳州立大学材料科学与工程系副教授,杜克大学计算机系、生物医学系研究教授，Sequenomics LLC学主席,American Academy of Nanomedicine创始会员,Diversity Biotechnology Consortium创始会员。长期从事生物分子工程、DNA分子自组装、生物纳米科学与技术等领域的研究,在国际知名期刊上发表学术论文60余篇,其中发表在Science上2篇、Nature上3篇、Proc.Nat.Acad.Sci.USA上2篇、Nano Letters上7篇、J.Am.Chem.Soc.上8篇。SCI他引3106余次,单篇最高SCI他引790余次。目前与我校“生物信息计算”课题组开展DNA Origami和DNA Strand Displacement的合作研究。

    报告摘要：The ability to design and program complex molecular interactions between synthetic biomolecules (especially DNA and proteins) has led to a revolution in artificial nanomaterials capable of self-assembly. For example, DNA-based nanotech entails the design of artificial nucleotide sequences capable of self-assembling into desired geometric shapes and patterns with nanometer-scale precision. These synthetic DNA nanostructures have been shown to be capable of organizing other materials including inorganic nanoparticles (metals and semiconductors), nucleic acid aptamers, and even carbon nanostructures. We are working with DNA self- and direct-assembly to develop a general purpose molecular assembly toolbox useful for a wide variety of applications, especially in nanoelectronics and medicine. One promising future direction is the bottom-up fabrication of electronics components and devices including molecular assembly of wires and metal nanoparticles toward the construction of single-electron transistors, multicomponent devices, and artificial neural networks.