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Organic Electrochemistry and Energy Materials Laboratory

PEOPLE

PROF. YOO

유승준
유승준 Yoo, Seung Joon (PI)
  • LAB NAMEORGANIC ELECTROCHEMISTRY AND ENERGY MATERIALS LABORATORY
  • E-MAILsjoonyoo@gist.ac.kr
  • OFFICE062-715-2339
  • FAX062-715-2304
  • WEBSITE http://energy.gist.ac.kr/

RESEARCH FIELD

  • Organic Chemistry
  • Electrochemistry
  • Electrochemical Energy Storage

EDUCATION

  • 2014: Ph.D. Chemistry, University of California, Santa Barbara (UCSB)<br> Dissertation: “Exploration of the Kinetic Behavior of Redox Mediators, and the Development of a Recyclable Electrolyte with Applications to Synthesis”
  • 2010: B.A. Agricultural Biology, Korea University, Seoul, Korea

WORK EXPERIENCE

  • 2024 03 - present: Associate Professor, School of Materials Science and Engineering, GIST
  • 2019-2024 02: Assistant Professor, School of Materials Science and Engineering, GIST
  • 2018: Adjunct Instructor, Chemistry Department, Santa Barbara City College
  • 2015-2019: Postdoctoral Research Associate (Galen Stucky research group), University of California, Santa Barbara
  • 2014, 2013: Visiting Researcher, Beijing University of Technology

HONORS_AWARDS

  • 2014-2015: NSF Partnership for International Research and Education: Electron Chemistry and Catalysis Interfaces (PIRE-ECCI) Postdoctoral Fellowship
  • 2013-2014: NSF Partnership for International Research and Education: Electron Chemistry and Catalysis Interfaces (PIRE-ECCI) Graduate Fellowship

REPRESENTATIVE_PUBLICATIONS

  • “Stackable bipolar pouch cells with corrosion-resistant current collectors enable high-power aqueous electrochemical energy storage.” Energy & Environmental Science <b>2018</b>, 11, 2865-2875. (selected as inside back cover)
  • “Redox-Enhanced Electrochemical Capacitors: Status, Opportunity, and Best Practices for Performance Evaluation.” ACS Energy Letters <b>2017</b>, 2, 2581-2590.
  • “Fundamentally addressing bromine storage through reversible solid-state confinement in porous carbon electrodes: Design of a high-performance dual-redox electrochemical capacitor.” Journal of the American Chemical Society <b>2017</b>, 139, 9985-9993. (featured in JACS Spotlights)
  • “Efficient charge storage in dual-redox electrochemical capacitors through reversible counterion-induced solid complexation.” Journal of the American Chemical Society <b>2016</b>, 138, 9373-9376.
  • “Polymeric Ionic Liquid and Carbon Black Composite as a Reusable Supporting Electrolyte: Modification of the Electrode Surface.” Angewandte Chemie-International Edition <b>2015</b>, 54, 3744-3747.

TEACHING

  • Instrumental Analysis (MA3211)
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