学术报告
刘健:Design of Nanoporous Carbon Spheres for Energy Conversion and Storage
发布时间:2016-01-04   浏览次数:279

讲座题目:Design of Nanoporous Carbon Spheres for Energy Conversion and Storage


主讲人:刘健研究员


开始时间:2016-01-04 10:30


讲座地址:闵行物理楼226


主办单位:物理系 科技处

报告人简介:

  刘健,现任澳大利亚科廷大学化工系高级研究员。主要致力于纳米多孔材料在催化,能源存储与转化方面的研究。在包括Nature Mater.,  Nature Commun., NPG Asia Mater., Angew. Chem. Int. Ed., Nano Today, Adv.  Funct. Mater., 等国际刊物发表正式论文100余篇(Nature子刊3篇,Angew. Chem.  6篇)。引用超过5200余次,H因子为37。已获授权专利4项,编著5章节,国际学术会议邀请报告10余次,此外在国内外著名大学及研究机构讲学和国际 会议上作学术报告30余次。任Wiley旗下杂志“Asia-Pacific Journal of Chemical  Engineering”执行主编,英国皇家化学会(RSC)旗下杂志“RSC Advances”副主编,澳大利亚昆士兰大学荣誉高级讲师,Board  Member of RACI Carbon Division,英国皇家化学会,澳大利亚材料学会等多个国际学术组织会员。担任澳大利亚ARC,  CooperativeResearch Centers (CRC) program, 波兰National Science Center  (NSC),韩国National Research Foundation of Korea (NRF)  等多个国家研究项目的评阅人,及包括Angew. Chem. Int. Ed,Adv. Mater., Adv.  Energy Mater,  Adv. Funct. Mater., Chem. Commun., Energy Environ. Sci., ACS Nano, JACS  等知名期刊审稿人。主要获得如下奖励和荣誉:UQ Foundation Research Excellence Award, Australian  Postdoctoral Fellowship (APD), JSPS Invitation Fellowships, Rod  Rickards Fellowship, Young Scientists Award of the 14th International  Congress on Catalysis


报告摘要:

 In this presentation, I will discuss our recent progress toward design  of advanced colloidal carbon spheres for energy applications.
 We have developed and synthesized various nanoporous carbon spheres  (NCSs) (including novel microporous carbon spheres, mesoporous carbon  spheres, core shell and yolk shell carbon spheres with hierarchical  porous structures) with high monodispersity, defined size and  orientation of pores, tunable surface area, and controlled surface  properties and structural ordering.Specifically, (i) We developed a  strategy to synthesise monodisperse polymer spheres from  resorcinol–formaldehyde (RF) resin and carbon “Stöber” spheres.(ii) In  addition, modified carbon spheres have been prepared through a bottom up  self-assembly by using different functional precursors, or  post-synthesis modification method.Furthermore, we have applied this  method to produce uniform carbon core–shell spheres with adjustable  shell thickness, carbon@metal, carbon@silica, metal@carbon,  silica@carbon, or metal oxide@carbon materials.  (iii) We also extended  the synthesis method of mesoporous silica nanospheres to enable the  preparation of ordered mesoporous resorcinol formaldehyde nanospheres  with particle size from 80 to 400 nm and mesopores of ~3.5 nm in  diameter.(iv) A general strategy was developed for the synthesis of  versatile carbon nanospheres impregnated with highly monodispersed metal  nanoparticles including (Au, Pt, Rh, Ru, Ag, Pd, Ir, Fe and Cu),  testing these metal-loaded carbon particles as catalysts for the  hydrogenation of benzaldehyde showed outstanding performance.
 Our synthesis strategies provide a new benchmark for fabricating  well-defined porous carbonaceous nanospheres with a great promise for  energy storage and conversion applications.