Do Hwan Kim
Affiliations: | 2005 | Chemical Engineering | Pohang University of Science and Technology (POSTECH), Pohang, Gyeongsangbuk-do, South Korea |
| 2011-2012 | Chemical Engineering | Stanford University, Palo Alto, CA | |
| 2012-2017 | Organic Materials and Fiber Engineering | Soongsil University, Korea | |
| 2017- | Chemical Engineering | Hanyang University, Seoul, Seoul, South Korea |
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"Do Hwan Kim"Parents
Sign in to add mentor| Kilwon Cho | grad student | 2005 | POSTECH | |
| (High-Performance Polymer Field-Effect Transistors via Surface-Mediated Molecular Ordering) | ||||
| Zhenan Bao | post-doc | 2011-2012 | Stanford (Chemistry Tree) | |
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Publications
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| Kweon H, Kim JS, Kim S, et al. (2023) Ion trap and release dynamics enables nonintrusive tactile augmentation in monolithic sensory neuron. Science Advances. 9: eadi3827 |
| Choi YJ, Roe DG, Choi YY, et al. (2022) Multiplexed Complementary Signal Transmission for a Self-Regulating Artificial Nervous System. Advanced Science (Weinheim, Baden-Wurttemberg, Germany). e2205155 |
| Ho DH, Roe DG, Choi YY, et al. (2022) Non-von Neumann multi-input spike signal processing enabled by an artificial synaptic multiplexer. Science Advances. 8: eabn1838 |
| Kang H, Kim JS, Choi SR, et al. (2022) Electroplated core-shell nanowire network electrodes for highly efficient organic light-emitting diodes. Nano Convergence. 9: 1 |
| Kim MJ, Lee M, Min H, et al. (2020) Universal three-dimensional crosslinker for all-photopatterned electronics. Nature Communications. 11: 1520 |
| Kim JS, Lee SC, Hwang J, et al. (2020) Iontronic Graphene Tactile Sensors: Enhanced Sensitivity of Iontronic Graphene Tactile Sensors Facilitated by Spreading of Ionic Liquid Pinned on Graphene Grid (Adv. Funct. Mater. 14/2020) Advanced Functional Materials. 30: 2070089 |
| Kim JS, Lee SC, Hwang J, et al. (2020) Enhanced Sensitivity of Iontronic Graphene Tactile Sensors Facilitated by Spreading of Ionic Liquid Pinned on Graphene Grid Advanced Functional Materials. 30: 1908993 |
| Back HS, Kim MJ, Baek JJ, et al. (2019) Intense-pulsed-UV-converted perhydropolysilazane gate dielectrics for organic field-effect transistors and logic gates. Rsc Advances. 9: 3169-3175 |
| Park HW, Choi KY, Shin J, et al. (2019) Universal Route to Impart Orthogonality to Polymer Semiconductors for Sub-Micrometer Tandem Electronics. Advanced Materials (Deerfield Beach, Fla.). e1901400 |
| Park HW, Choi K, Shin J, et al. (2019) Organic Electronics: Universal Route to Impart Orthogonality to Polymer Semiconductors for Sub‐Micrometer Tandem Electronics (Adv. Mater. 28/2019) Advanced Materials. 31: 1970204 |