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学术报告:Optoelectronic devices based on hybrid semiconductor nanoparticles and nanocarbon

发布时间:2016-05-04

报告主题Optoelectronic  devices based on hybrid semiconductor nanoparticles and nanocarbon

报告时间:  2016年05月06日上午11:30

报告地点:  东华大学延安路校区第二会议室

报告人及简介:

Dong  Ick SonPh.D., Associate ProfessorUniversity of Science & Technology, South  Korea

Dong  Ick Son received the phd degree in Department of Information Display Engineering  from Hanyang University Korea, in 2010. After that, he joined Korea Institute of  Science and Technology (KIST) as a star post-doc during 2010-2012. He worked as  a visiting researcher in Department of Physics, KU Leuven, Belgium during  post-doc period in 2011. Since 2012, he has worked as a senior research  scientist in KIST and an Associate Professor at University of Science &  Technology (UST). His main research fields are study on optical and electronic  devices (nonvolatile organic bistable memory device, light-emitting device,  photodetector, and photovoltaic cell) fabricated utilizing hybrid  organic/inorganic nanocomposites and study on application devices utilizing  hybrid van der Waals 2D materials (including carbon nanomaterials) and inorganic  nanoparticles.

报告大纲

Recently,  the two-dimensional material graphene has attracted due to numerous  investigations into its remarkable physical, chemical, and mechanical  properties, opening up a new research area for materials science, chemistry and  physics, and including for a diverse ranging and exiting potential  applications.

     Hybrid nanostructures that combine inorganic materials and graphene are being  developed for applications such as fuel cells, batteries, photovoltaics and  sensors. However, there have never been demonstrations of light emission from  such hybrids with curved single-layer graphene. Here we employ a simple solution  method to prepare emissive hybrid quantum dots consisting of a ZnO core wrapped  in a shell of single-layer graphene, and use these quantum dots to make a white  light-emitting diode. The intermediate consolidated quasi-metal oxide-graphene  core-shell QD is a kind of newly developed material which will be appropriate  for a functional layer acting as an electron transport layer with high mobility  in the field of such as DSSC, photovoltaic devices, sensor, lithium ion  batteries (LIBs), photodetector, fuel cells, and light emitting diode  etc.


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