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이메일
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연구실제1공학관(102동) 501-8호
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웹사이트
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연구주제첨단 신소재 설계
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Star Library
첨단재료설계연구실(Advanced Materials Design Laboratory, AMDL)은 에너지소재(연료전지소재, 이차전지소재), 극한소재(국방소재) 및 친환경소재(자동차내장소재)의 핵심소재를 연구하고 있습니다. 특히 원자∙분자단위 전산설계 및 기계학습을 이용한 데이터 기반 신소재 연구 및 공정 최적화를 함께 도모하고 있습니다.
The Advanced Materials Design Laboratory (AMDL) focuses on researching core materials in energy materials (fuel cell materials, secondary battery materials), extreme materials (defense materials), and eco-friendly materials (automotive interior materials). Specifically, we aim to promote the development of advanced material research and process optimization using atomic and molecular-level computational design and machine learning techniques.
– Curriculum Vitae
2024 – present : Professor, UNIST
2020 – 2024 : Professor, Pusan National University
2017 – 2020 : Associate Professor, Pusan National University
2013 – 2017 : Assistant Professor, Pusan National University
2012 – 2013 : Senior Researcher, Agency for Defense Development
2011 – 2012 : Postdoctoral Fellow, California Institute of Technology
– Academic Credential
2011 : Ph. D. Georgia Institute of Technology
2007 : M. S. North Carolina State University
2004 : B. S. Pusan National University
– Research Keywords and Topics
Computational Materials Science, Molecular Dynamics, Density Functional Theory, Multi-scale Simulations, Fuel Cells (Catalyst Layers, Ionomers, Catalysts), Batteries (Electrodes, Separators), Space and Defense Materials, Eco-materials, Machine Learning
– Publications (selected)
Liquid metal based three-dimensional microelectrode arrays integrated with implantable ultrathin retinal prosthesis for vision restoration, Nature Nanotechnology (2024).
Ion trap and release dynamics enables non-intrusive tactile augmentation in monolithic sensory neuron, Science Advances, 9, eadi3827 (2023).
Persulfate activation by nanodiamond-derived carbon onions: Effect of phase transformation of the inner diamond core on reaction kinetics and mechanisms, Applied Catalysis B: Environmental, 293, 120205 (2021).
Visco-poroelastic electrochemiluminescence skin with piezo-ionic effect, Advanced Materials, 2100321 (2021).
Novel graphene hydrogel/B-doped graphene quantum dots composites as trifunctional electrocatalysts for Zn−air batteries and overall water splitting, Advanced Energy Materials, 9, 1900945 (2019).
Facet selectivity of Cu current collector for Li electrodeposition, Energy Storage Materials, 19, 154-162 (2019).
Surface-loaded metal nanoparticles for peroxymonosulfate activation: Efficiency and mechanism reconnaissance, Applied Catalysis B: Environmental, 241, 561-569 (2019).
An ultrastable ionic chemiresistor skin with an intrinsically stretchable polymer electrolyte, Advanced Materials, 30, 1706851 (2018).
An ultrasensitive, visco-poroelastic artificial mechanotransducer skin inspired by Piezo2 protein in mammalian Merkel cells, Advanced Materials, 29, 1605973 (2017).
– Awards/Honors/Memberships
2019 – present : Advisory Editorial Board Member, Applied Surface Science Advances, Elsevier
2019 – present : Editorial Board Member, Scientific Reports, Nature Publishing Group