1. Principal Investigator
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 researcher, Materials Science and Engineering, Northwestern University, IL (2010-2012)
- Postdoctoral researcher, 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
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)
Graphene quantum dots/graphene fiber nanochannels for osmotic power generation, Journal of Materials Chemistry A, 7, 23727-23732 (2019)
"Journal of Materials Chemistry A 2019 Emerging Investigators"Dynamic assembly of liquid crystalline graphene oxide gel fibers for ion transport, Science Advances, DOI: 10.1126/sciadv.aau2104 (2018)