- Office.Room 202, Advanced Materials & Chemical Engineering Building
- Tel.02-2220-2617
- Email.dhkim76@hanyang.ac.kr
- Website.Frontier Optoelectronic Nanomaterials & Devices Lab
Bio-inspired, Electronic & Iontronic Artificial Skin
High-resolution, Organic Tandem Optoelectronics
Biocompatible, Soft Electroceutical Closed-loop System
Chemical Engineering Thermodynamics I & II (Undergraduate)
Polymer Chemistry (Undergraduate)
Introductory Chemical Engineering Laboratory (Undergraduate)
Design and Applications of Smart Flexible Sensors (Graduate)
Organic Semiconductor Materials and Devices (Graduate)
2002.03 ~ 2005.08 : Ph.D. in POSTECH
2000.03 ~ 2002.02 : M.S. in POSTECH
1996.03 ~ 2000.02 : B.S. in Hanyang Univ.
2021.02 ~ Present : HYU Distinguished Professor in Hanyang University, Korea
2021.02 ~ Present : Faculty Member in Clean-Energy Research Institute in Hanyang University, Korea
2017.09 ~ Present : Faculty Member in Institute of Nano Science and Technology in Hanyang University, Korea
2017.09 ~ Present : Professor in Hanyang University, Korea
2012.09 ~ 2017.08 : Assistant Professor in Soongsil University, Korea
2011.01 ~ 2012.08 : Postdoctoral Research Fellow in Stanford University, USA
2006.06 ~ 2010.12 : Senior Researcher in Samsung Advanced Institute of Technology, Korea
2005.09 ~ 2006.05 : Postdoctoral Research Fellow in POSTECH, Korea
Nano Research Innovation Award (7/2024, in the recognition of Excellence in Academic Achievement and Research, Nano Korea 2024), 2024년 나노코리아 2024 나노연구혁신상(과학기술정보통신부 장관상)
29th Humantech Paper Silver award (2/2023, in the recognition of Excellence in Academic Achievement and Research, Material Science & Engineering, Samsung Electronics), 2023년 2월 삼성휴먼테크논문대상 은상 선정
Outstanding Research Award (7/2021 at HYU, in the recognition of Researcher of the Month), 2021년 7월 한양대학교 이달의 연구자상 선정
27th Humantech Paper Silver award (2/2021, in the recognition of Excellence in Academic Achievement and Research, Physical Devices & Processes, Samsung Electronics), 2021년 2월 삼성휴먼테크논문대상 은상 선정
HYU Award (02/2021 HYU Distinguished Research Fellow, Department of Chemical Engineering, Institute of Nano Science and Technology, Hanyang University), 2020년 한양대학교 특훈교수 선정
Scientific Mid-Career Faculty Award (04/2020, in the recognition of Excellence in Academic Achievement and Research, The Polymer Society of Korea), 2020년 한국고분자학회 중견학술상
Science and Technology Award of the Month (1/2020, in the recognition of Excellence in Academic Achievement and Research, National Research Foundation of Korea through the Ministry of Science & ICT), 2020년 이달의 과학기술인상(과학기술정보통신부 장관상)
Outstanding Research Award (7/2019 at HYU, in the recognition of Researcher of the Month), 2019년 7월 한양대학교 이달의 연구자상 선정
25th Humantech Paper Gold award (2/2019, in the recognition of Excellence in Academic Achievement and Research, Material Science & Engineering, Samsung Electronics), 2019년 2월 삼성휴먼테크논문대상 금상 선정
Outstanding Award (Selected as the top 10 nanotechnology in 2017, The Ministry of Science, ICT), 2017년 10대 나노기술 선정
Outstanding Award (Selected as the top 10 nanotechnology in 2015, The Ministry of Science, ICT), 2015년 10대 나노기술 선정
논문
Kweon, H., Kim, S., Ha, B.,Lee, S., Lee, S., Roh, S. H., Oh, H., Ha, J., Kang, M., Kang, M. S., Cho, J. H. & Kim, D. H.* Microlithography of hole transport layer for crosstalk-free, ultrahigh-resolution organic light-emitting diodes, Nature Electronics, (2024). (accepted)
Kong, Z., Boahen, E. K., Kim, D. J., Li, F., Kim, J. S., Kweon, H., Kim, S. Y., Choi, H. B., Zhu, J., Ying, W. B. & Kim, D. H.* Ultrafast underwater self-healing piezo-ionic elastomer via dynamic hydrophobic-hydrolytic domains. Nature Communications, 15(1), 2129. . (2024). https://doi.org/10.1038/s41467-024-46334-4
Kim, J. S., Kim, J., Lim, J. W., Kim, D. J., Lee, J. I., Choi, H., Kweon, H., Lee, J., Yee, H., Kim, J. H., Kim, B., Kang, M. S., Jeong, J. H., Park, S. & Kim, D. H.* Implantable Multi-Cross-Linked Membrane-Ionogel Assembly for Reversible Non-Faradaic Neurostimulation. ACS NANO, 17(15), 14706-14717. (2023). https://doi.org/10.1021/acsnano.3c02637
Kweon, H., Kim, J. S., Kim, S., Kang, H., Kim, D. J., Choi, H., Roe, D. G., Choi, Y. J., Lee, S. G. & Kim, D. H.* Ion trap and release dynamics enables nonintrusive tactile augmentation in monolithic sensory neuron. Science advances, 9(42), eadi3827. (2023). https://doi.org/ 10.1126/sciadv.adi3827
Boahen, E. K., Pan, B., Kweon, H., Kim, J. S., Choi, H., Kong, Z., Kim, D. J., Zhu, J., Ying, W. B., Lee, K. J. & Kim, D. H.* Ultrafast, autonomous self-healable iontronic skin exhibiting piezo-ionic dynamics. Nature Communications, 13(1), 7699. (2022). https://doi.org/10.1038/s41467-022-35434-8
Kweon, H., Choi, K. Y., Park, H. W., Lee, R., Jeong, U., Kim, M. J., Hong, H., Ha, B., Lee, S., Kwon, J., Chung, K., Kang, M. S., Lee, H. & Kim, D. H.* Silicone engineered anisotropic lithography for ultrahigh-density OLEDs. Nature communications, 13(1), 6775. (2022). https://doi.org/10.1038/s41467-022-34531-y
Lee, J. I., Choi, H., Kong, S. H., Park, S., Park, D., Kim, J. S., Kwon, S. H., Kim, J., Choi, S. H., Lee, S. G., Kim, D. H.* & Kang, M. S. Visco‐poroelastic electrochemiluminescence skin with piezo‐ionic effect. Advanced Materials, 33(29), 2100321. (2021). https://doi.org/10.1002/adma.202100321
Jin, M. L., Park, S., Kweon, H., Koh, H. J., Gao, M., Tang, C., Cho, S., Kim, Y., Zhang, S., Li, X., Shin, K., Fu, A., Jung, H. & Kim, D. H.* Scalable superior chemical sensing performance of stretchable ionotronic skin via a π‐hole receptor effect. Advanced Materials, 33(13), 2007605. (2021). https://doi.org/10.1002/adma.202007605
Amoli, V., Kim, J. S., Jee, E., Chung, Y. S., Kim, S. Y., Koo, J., Choi, H., Kim, Y. & Kim, D. H.* A bioinspired hydrogen bond-triggered ultrasensitive ionic mechanoreceptor skin. Nature communications, 10(1), 4019. (2019). https://doi.org/10.1038/s41467-019-11973-5
Park, H. W., Choi, K. Y., Shin, J., Kang, B., Hwang, H., Choi, S., Song, A., Kim, J., Kweon, H., Kim, S., Chung, K., Kim, B., Cho, K., Kwon, S., Kim, Y., Kang, M. S., Lee, H. & Kim, D. H.* Universal Route to Impart Orthogonality to Polymer Semiconductors for Sub‐Micrometer Tandem Electronics. Advanced Materials, 31(28), 1901400. (2019). https://doi.org/10.1002/adma.201901400
The Frontier Optoelectronic Nanomaterials & Devices Lab designs bio-inspired iontronic materials and flexible organic semiconductors.
Building on these platforms, the lab aims to establish foundational technologies for ultra-low-power iontronic e-skin devices, ultrahigh-resolution micro-OLEDs and tandem organic electronic devices, and implantable therapeutic bioelectronic devices.
It also develops next-generation flexible tactile interfaces and bioelectronic systems for diagnosis and therapy, and advances ultrahigh-resolution optoelectronic materials and devices with a view toward deployment in industrial manufacturing processes.
