Cheolmin Park
Professor
Email:
Address:
Department of Materials Science & Engineering
Yonsei University
50 Yonsei-ro, Seodaemun-gu, Seoul 120-749, Korea
Tel:
+82-2-2123-2833
Education
1992.2: B.S., Dept. Textile Engineering, Seoul National University, Korea
1995.8: M.S., Dept. Fiber and Polymer Engineering, Seoul National University, Korea
2001.6: Ph.D., Dept. Materials Science and Engineering, MIT, USA
Personal experience
2019. 09 - Present
Korea Institute of Science and Technology
Adjunct Researcher
2019. 01 - Present
Amorepacific
Advisory Board
2018. 03 - 2020. 02
College of Engineering, Yonsei University
Associate Dean (Planning)
2017. 01 - Present
Center for Artificial Synesthesia Materials Discovery
Director
2020. 02 - Present
Polymer Society of Korea
Board Member
2006. 09 - 2011. 08
Department of Materials Science & Engineering, Yonsei University
Associate Professor
2002. 09 - 2006. 08
Department of Materials Science & Engineering, Yonsei University
Assistant Professor
2001. 07 – 2002. 08
Harvard University
Postdoctoral Researcher
2019. 08 - Present
Science and Technology of Advanced Materials
Associate Editor
2020. 09 - Present
BK21 Education and Research Division for Futuristic Human-centric Materials
Director
2020. 09 - Present
Korea Flexible & Printed Electronics Society
Board Member
2022. 03 - Present
Progress in Polymer Science
Editorial Board
2011. 09 - Present
Department of Materials Science & Engineering, Yonsei University
Professor
2022. 01 - Present
Materials Research Society
Board of Directors
2019. 09 - Present
National Research Foundation of Korea
Committee Member
1995. 09 – 1996. 08
Korea Institute of Science and Technology
Associated Researcher
Research
Background
The research group seeks to utilize the molecular self-assembly principles found in Nature to create and control new nanometer scale soft and hybrid materials for innovative electrical devices based on emerging nanotechnology. The research interest covers from molecular design, assembly to nanopatterns and devices including self-organizing polymer systems and nanostructures, with particular emphasis on functional block copolymer materials; non-lithographic nanoimprinting and contact printing combined with surface engineering; ultrahigh density ferroelectric polymer memory, carbon nanotube assembly & composite and organic light emitting diode and transistor. The goal is to contribute to the understanding of process-structure-property relationships and to create technologically useful materials and devices.