Seoul National Univ. DMSE
People
Faculty
Kang, Keehoon
강기훈
keehoon.kang@snu.ac.kr
Mailstop
33-202
Phone
880-7189
Fax
none
Education
- 2019
Ph.D : University of Cambridge, Department of Physics
- 2012
B.A & M.Sci : University of Cambridge, Department of Physics (Natural Sciences Tripos)
Career
- 2022 ~ Current
Seoul National University, Department of Materials Science and Engineering, Assistant Professor
- 2021 ~ 2022
Yonsei University, Department of Materials Science and Engineering Assistant Professor
- 2017 ~ 2021
Seoul National University, Department of Physics, Postdoctoral Researcher
Research Interests
1.Transport phenomena in organic semiconductors
– Charge and spin transport mechanism in pi-conjugated polymers
– Thermoelectric effect in conducting polymers
2. Molecular doping in emerging semiconductors
– Charge-transfer processes at heterointerfaces
– Non-invasive doping for electronic applications
3. Next-generation electronic devices
– Organic neuromorphic devices
– Organic-hybrid spintronic devices
Selected Publications
• “2D Coherent Charge Transport in Highly Ordered Conducting Polymers Doped by Solid State Diffusion”, Nat. Mater., 15, 896-902 (2016)
• “Polaron Spin Current Transport in Organic Semiconductor”, Nat. Phys., 10, 308-313 (2014)
• “Enhanced Charge Injection Properties of Organic Field-Effect Transistor by Molecular Implantation Doping”, Adv. Mater., 31, 1806697 (2019)
• “Molecular Dopant-dependent Charge Transport in Surface-Charge-Transfer-Doped WSe2 Field Effect Transistors”, Adv. Mater., 33, 2101598 (2021)
• “High-Performance Solution-Processed Organo-Metal Halide Perovskite Unipolar Resistive Memory Devices in a Cross-bar Array Structure”, Adv. Mater., 31, 1804841 (2019)
Lab Overview
ONE Lab aims to develop molecular-based material & device solutions for next-generation electronics. Our research focuses on the fundamental transport, device physics aspects of organic and hybrid materials, which form the basis for discovering novel device concepts for emerging technological applications such as sensing and neuromorphic computing. We pursue tackling the underlying complex transport mechanism in organic and hybrid materials in the aim of discovering the best molecular deisgn for different device applications. Concerted approach from different disciplines (materials, physics, chemistry, electrical & chemical engineering) is essential for bringing innovations beyond traditional electronics.
Seoul National Univ. DMSE
People
Faculty
Kang, Keehoon
강기훈
keehoon.kang@snu.ac.kr
Mailstop
33-202
Phone
880-5791
Fax
883-8197
Homepage
https://keehoonkang.
wixsite.com/onelab
Education
- 2019
Ph.D : University of Cambridge, Department of Physics
- 2012
B.A & M.Sci : University of Cambridge, Department of Physics (Natural Sciences Tripos)
Career
- 2022-Current
Seoul National University, Department of Materials Science and Engineering, Assistant Professor
- 2021-2022
Yonsei University, Department of Materials Science and Engineering Assistant Professor
- 2017-2021
Seoul National University, Department of Physics, Postdoctoral Researcher
Research Interests
1.Transport phenomena in organic semiconductors
– Charge and spin transport mechanism in pi-conjugated polymers
– Thermoelectric effect in conducting polymers
2. Molecular doping in emerging semiconductors
– Charge-transfer processes at heterointerfaces
– Non-invasive doping for electronic applications
3. Next-generation electronic devices
– Organic neuromorphic devices
– Organic-hybrid spintronic devices
Selected Publications
• “2D Coherent Charge Transport in Highly Ordered Conducting Polymers Doped by Solid State Diffusion”, Nat. Mater., 15, 896-902 (2016)
• “Polaron Spin Current Transport in Organic Semiconductor”, Nat. Phys., 10, 308-313 (2014)
• “Enhanced Charge Injection Properties of Organic Field-Effect Transistor by Molecular Implantation Doping”, Adv. Mater., 31, 1806697 (2019)
• “Molecular Dopant-dependent Charge Transport in Surface-Charge-Transfer-Doped WSe2 Field Effect Transistors”, Adv. Mater., 33, 2101598 (2021)
• “High-Performance Solution-Processed Organo-Metal Halide Perovskite Unipolar Resistive Memory Devices in a Cross-bar Array Structure”, Adv. Mater., 31, 1804841 (2019)
Lab Overview
ONE Lab aims to develop molecular-based material & device solutions for next-generation electronics. Our research focuses on the fundamental transport, device physics aspects of organic and hybrid materials, which form the basis for discovering novel device concepts for emerging technological applications such as sensing and neuromorphic computing. We pursue tackling the underlying complex transport mechanism in organic and hybrid materials in the aim of discovering the best molecular deisgn for different device applications. Concerted approach from different disciplines (materials, physics, chemistry, electrical & chemical engineering) is essential for bringing innovations beyond traditional electronics.