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Han, Tae Hee (한태희, 韓泰熙)
Han, Tae Hee (한태희, 韓泰熙)
E-mail: than@hanyang.ac.kr
Dept. of Organic and Nano Engineering,
Dept. of Battery Engineering,
Hanyang University
Seoul, Korea
Tel: +82-2-2220-0493, Fax : +82-2-2228-4101
Google scholar [link], ORCID [link]
Education
- Ph. D., KAIST, Daejeon, Korea (2006-2010)
- M. S., KAIST, Daejeon, Korea (2004-2006)
- B. S., Hanyang University, Seoul, Korea (1997-2004)
* Mandatory military service (1999-2001)
Professional experience
- Professor (2024-present), Dept. of Battery Engineering, Graduate School, Hanyang University
- Professor (2012-present), Dept. of Organic and Nano Engineering, Hanyang University
- Visiting Professor, University of California, San Diego, CA (2018-2020)
- Postdoctoral Research Associate, Materials Science and Engineering, Northwestern University, IL (2010-2012)
- Postdoctoral Research Associate, Functional Polymer Hybrid Center, KIST, Seoul, Korea (2010-2010)
Field of interests
(1) Ion-based electronic materials (ion-transport cable, ionic circuit, ion-driven artificial muscles, energy-generation devices)
(2) Design of fiber-type materials (colloid particle fibers, fiber network, electrothermal fibers)
(3) Design of thermal management materials (heat generation/spreading)
(4) Designing materials for energy storage (electrodes for supercapacitors and batteries, polymer electrolytes for all-solid-state batteries )
(5) Development of sensor materials (flexible, fiber-type chemosensors)
Selected publications
Maximizing light-to-heat conversion of Ti3C2Tx MXene metamaterials with wrinkled surfaces for artificial actuators, Nature Communications, 15, 10507 (2024)
Holey sheets enhance the packing and osmotic energy harvesting of graphene oxide membranes, ACS Nano, 18(28), 18584-18591 (2024)
Carbon nanotube-reduced graphene oxide fiber with high torsional strength from rheological hierarchy control, Nature Communications, 12, 396 (2021)
Large-scale wet-spinning of highly electroconductive MXene fibers, Nature Communications, 11, 2825 (2020)
Stiffening of graphene oxide films by soft porous sheets, Nature Communications, 10, 3677 (2019)
Dynamic assembly of liquid crystalline graphene oxide gel fibers for ion transport, Science Advances, DOI: 10.1126/sciadv.aau2104 (2018)
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