#IMAGEZILLA HU TN PROFESSIONAL#
Ph.D., Chinese Academy of Sciences: Magnetically Controllable Optical and Electronic Properties in Organic Light-Emitting Diodes, Solar Cells, and Lasing Devices, Photophysics of Organic Semiconductors, Laser Spectroscopy of Organic Materials.Ģ019, 2014, 2010 College of Engineering Research Achievement AwardĢ010 College of Engineering Research Fellow AwardĢ008 Chancellor’s Research and Creative Achievement Professional Promise AwardĢ008 College of Engineering Research Fellow AwardĢ008 Departmental Faculty Award for Excellence in ResearchĢ007 National Science Foundation Career Award Singlet and triplet photovoltaic channels in organic solar cells.Spin injection and polarization effects on electroluminescence in organic light-emitting diodes.Magnetic control of constructive and non-constructive excited state and charge transport processes in organic semiconducting materials.Magnetic studies of exciton-exciton and exciton-charge interactions in organic light-emitting and photovoltaic devices.Dr, Hu has authored or co-authored more than 80 scientific journal papers and has contributed to more than 40 oral presentations at national and international conferences including invited talks in APS, ACS, and SPIE meetings. The research objective is to control the constructive and non-constructive interactions of singlet and triplet excited states by using spin injection and magnetic field effects for the development next-generation organic semiconductor devices. The research activities include polymer synthesis and processing, device fabrication, and magneto-optoelectronic characterizations. Hus current research focuses on spin injection and magnetic field effects on optoelectronic processes of singlet and triplet excited states in organic light-emitting, lasing, and photovoltaic devices. Hu joined the faculty at University of Tennessee as an assistant Professor. as a senior research scientist where he led the R&D research on polymer polarized optical imaging technologies and organic two photon light-emitting materials. Hu continued his polymer research at UMass/Amherst as a research scientist working on nano-morphology enhanced light-emitting, lasing, and photovoltaic functionalities of organic semicondcuting polymers. Hu joined Department of Polymer Science and Engineering at University of Massachusetts/Amherst as a postdoctoral research fellow where he conducted the research on the development of advanced organic light-emitting diodes and solar cells using multi-component polymer blends. His dissertation research was conducting polymers with the focus on interchain interaction effects on energy-band structure and dynamic processes of excited states. Bin Hu received his Ph.D in Condensed Matter Physics from Chinese Academy of Sciences in 1991.
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