Professor

Total 4건 1 페이지

Hyun Suk Kim,Ph.D.

Professor

Department of Energy and Materials Engineering

4
Education
  • Ph.D. in Materials Science and Engineering, Korea Advanced Institute of Science and Technology (KAIST), 2003~2006 (Thesis advisor: Prof. Ho-Gi Kim)
  • M.S. in Materials Science and Engineering, Korea Advanced Institute of Science and Technology (KAIST), 2001~2003(Thesis advisor: Prof. Ho-Gi Kim)
  • B.S. in Materials Science and Engineering, Korea University, 1997~2001
3
Academic Appointments
  • 2023.09-Present Professor, Dep. of Energy and Materials Engineering, Dongguk University
  • 2021.03-2022.02 Vice Dean, College of Engineering, Chungnam National University
  • 2022.03-2023.08 Professor, Dep. of Materials Science & Engineering, Chungnam National University
  • 2018.03-2022.02 Associate Professor, Dep. of Materials Science & Engineering, Chungnam National University
  • 2018.07-2019.06 Visiting Professor:, Dep. of Materials Science and Engineering, Massachusetts Institute of Technology (MIT), Cambridge, MA, USA
  • 2014.03-2018.02 Assistant Professor, Dep. of Materials Science & Engineering,Chungnam National University
  • 2013.11-2014.02 Senior Research Engineer, IT Panel Development Group, Samsung Display
  • 2009.10-2013.10 Research Staff Member, Display Devices Lab., Samsung Advanced Institute of Technology
  • 2009.02-2009.09 Postdoctoral Fellow, Dep. of Materials Science & Engineering, KAIST (Prof. Kisuk Kang)
  • 2007.02-2009.01 Postdoctoral Fellow, Dep. of Materials Science & Engineering, MIT (Prof. Caroline A. Ross)
  • 2006.09-2007.01 Postdoctoral Fellow, Dep. of Materials Science & Engineering, KAIST (Prof. Ho-Gi Kim)
2
Honors and Awards
  • 2016.11 한국재료학회 신진논문상, MRS Korea
  • 2013.01 12년 하반기 무한탐구상 R&D부문, Samsung Electronics
  • 2012.11 12년 삼성논문상 금상 Display & Photonics부문, Samsung Electronics
  • 2011.01 10년 SEC Annual Awards 금상 R&D부문, Samsung Electronics
  • 2007.02 Postdoctoral fellowship, Korea Research Foundation
1
Selected Publications
  • “Improved Performance of All-Solid-State Lithium Metal Batteries via Physical and Chemical Interfacial Control” Advanced Science, 2103433 (2021) [IF = 16.806]
  • “An antisite defect mechanism for room-temperature ferroelectricity in orthoferrites” Nature communications, vol. 12, 4298 (2021) [IF = 14.919]
  • “Ensemble Design of Electroder-Electrolyte Interfaces: Toward High-Performance Thin-Film All-Solid-State Li-Ion Batteries” ACS Nano, vol. 15, 4561-4575 (2021) [IF = 15.881]
  • “Metal-Induced n+/n Homojunction for Ultra-High Electron Mobility Transistors” NPG Asia Materials, vol. 21, 81 (2020) [IF = 10.481]
  • “Anomalous Defect Dependence of Thermal Conductivity in Epitaxial WO3 Thin Films” Advanced Materials, vol. 2019, 1903738 (2019) [IF = 30.849]
  • “Highly Stable Thin-Film Transistors based on Indium Oxynitride Semiconductor” ACS Applied Materials & Interfaces, 9, vol. 10, 15873 (2018) [IF = 9.229]
  • “3D Printable Composite Doughs for Stretchable, Ultrasensitive and Body-Patchable Strain Sensors”,Nanoscale, 21, vol. 9, 5072-5084 (2017) [IF = 7.790]
  • “Anion control as a strategy to achieve high-mobility and high-stability oxide thin-film transistors”Scientific Reports, 3, 1459-1465 (2013) [Nature Publishing Group] [IF = 4.379] Citations: 155
  • “Review of recent developments in amorphous oxide semiconductor thin-film transistor devices”Thin Solid Films, 520, 1679-1693 (2012) [Invited Review Article] Citations: 928
  • “Flexible energy storage devices based on graphene paper”Energy & Environmental Science, vol. 4, 1277-1283 (2011) [featured in “Chemistry World News, RSC”, “Gizmo Watch”, and “Materials For Energy”, and also featured as Top Ten most-read Energy & Environmental Science articles in March, 2011] [IF = 38.532]Citations: 572