苑金凱:研究員,中科院化學(xué)所,中科院百人計劃,博士生導(dǎo)師
博士后,Centre de Recherche Paul Pascal, France,2012-2015
博士,巴黎中央理工,2009-2012
本科、碩士,北京化工大學(xué),2002-2009
2016年通過中科院“卓越百人計劃”引進回國,進入中科院化學(xué)研究所工程塑料重點實驗室工作。長期從事新型能源相關(guān)聚合物復(fù)合材料的研究工作,迄今為止共發(fā)表SCI論文26篇,其中以第一作者或通訊作者在Science,Nature Communications,Advanced Materials等頂級期刊上發(fā)表SCI論文12篇,并受邀撰寫專著章節(jié)2部。發(fā)表文章共計被Web of Science引用>1100次(Google Scholar引用>1400次),多篇文章入選ESI高引用論文,H因子13。研究成果被ScienceDaily、Phys.org等媒體highlight。美國材料研究學(xué)會、英國化學(xué)工業(yè)協(xié)會成員。受邀擔(dān)任著名學(xué)術(shù)期刊包括Energy & EnvironmentalScience, Carbon, ACS Applied Materials & Interfaces, The Journal of PhysicalChemistry, Journal of Materials ChemistryA(C), Applied Physics Letters, Journalof Applied Physics, RSC Advances,等審稿人。
報告摘要:Combiningfunctional nanoparticles with polymers can create advanced polymernanocomposites, which are recently arousing considerable interest in the fieldof energy storage and conversion. For the power energy storage application indielectric capacitors, we have proposed a concept of “l(fā)ocal alignment ofconducting nanoparticles” to develop giant-permittivity polymer composites withlow losses. Further, near-percolated-networks of reduced graphene oxide wereexplored in a soft polymer media to achieve a large permittivity variation withmechanical deformation. The resultant materials show a giant electrostrictivecoefficient and thus can be used in energy harvester to efficiently convertmechanical energy into electricity. In addition, we have also developed polymercomposite fibers to convert thermal energy into mechanical one based on theconcept of shape-memory twisted fiber. Our polymer fibers doped by grapheneoxide exhibit an ever record mechanical energy density, showing a great promisefor the use inminiaturized and strong torsional actuators.
時間:4月12日(12th,April)上午9:00
地點:明德樓(Mingde Building)A318
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