Seoul National Univ. DMSE
People
Faculty
Nam, Ki Tae
Professor
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Mailstop
33-105
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Phone
880-8305
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Fax
- Homepage
Education
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2007
Ph.D : Massachusetts Institute of Technology, Department of Materials Science and Engineering
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2002
M. S : Seoul National University, Department of Materials Science and Engineering
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2000
B. S : Seoul National University, Department of Materials Science and Engineering
Career
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2010-Present
Professor, Seoul National University
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2010-Present
Director, Nano System Institute, Seoul National University
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2007-2010
Postdoctoral Fellow,the Molecular Foundry, Lawrence Berkeley National Laboratory
Research Interests
Dr. Ki Tae Nam is a Professor of Materials Science and Engineering at Seoul National University and serves as a member of the Presidential Advisory Council on Science and Technology. He received the Outstanding PhD Thesis Award from MIT in 2007 and was honored with prestigious awards such as the Presidential Young Scientist Award in 2018, the POSCO TJ Park Prize in 2022, and the Order of Science and Technology Merit in 2023.
His PhD thesis was about the “virus-based battery” that has been highlighted as the first demonstration of virus based electrochemical devices. During his postdoc (2007-2010) at Lawrence Berkeley National Lab, he studied peptide mimetic polymer to assemble two dimensional structures. Since 2010, His group at SNU continue to pioneer the research area of bioinspired material science to make new functional materials for energy and optical applications. Recent innovations include the development of CO2 utilization chemistry and the peptide based synthesis of chiral nanomaterials.
In addition to his academic pursuits, Dr. Nam plays a significant role in shaping science and technology policy. He contributed to R&D strategy and policy development as part of the Presidential Transition Committee in 2022 and has since served on the Presidential Advisory Council and special committees on carbon neutrality and strategic technologies.
Dr. Nam also promotes international collaboration in science and technology. He is a member of the Fulbright Foundation, Korean American Educational Commission, supporting bilateral exchange programs, and the SKERIC Science Diplomacy Academy, fostering cooperation between Sweden and Korea in education, research, and innovation.
His PhD thesis was about the “virus-based battery” that has been highlighted as the first demonstration of virus based electrochemical devices. During his postdoc (2007-2010) at Lawrence Berkeley National Lab, he studied peptide mimetic polymer to assemble two dimensional structures. Since 2010, His group at SNU continue to pioneer the research area of bioinspired material science to make new functional materials for energy and optical applications. Recent innovations include the development of CO2 utilization chemistry and the peptide based synthesis of chiral nanomaterials.
In addition to his academic pursuits, Dr. Nam plays a significant role in shaping science and technology policy. He contributed to R&D strategy and policy development as part of the Presidential Transition Committee in 2022 and has since served on the Presidential Advisory Council and special committees on carbon neutrality and strategic technologies.
Dr. Nam also promotes international collaboration in science and technology. He is a member of the Fulbright Foundation, Korean American Educational Commission, supporting bilateral exchange programs, and the SKERIC Science Diplomacy Academy, fostering cooperation between Sweden and Korea in education, research, and innovation.
Selected Publications
Full papers in Google Scholar (https://scholar.google.com/citations?user=W51aZF4AAAAJ&hl=en&oi=ao)
“Enantioselective Sensing by Collective Circular Dichroism” Nature (2022)
“Amino-Acid- and Peptide-Directed Synthesis of Chiral Plasmonic Gold Nanoparticles” Nature (2018)
“Virus Enabled Synthesis and Assembly of Nanowires for Lithium Ion Battery Electrodes” Science (2006)
“Redox-neutral electrochemical conversion of CO2 to dimethyl carbonate” Nature Energy (2021)
Electrochemically initiated synthesis of ethylene carbonate from CO2, Nature Synthesis (2024)
Investigating Chiral Morphogenesis of Gold Using Generative Cellular Automata, Nature Material (2024)
“Photocatalytic Hydrogen Generation from Hydriodic Acid Using Methylammonium Lead Iodide in Dynamic
Equilibrium with Aqueous Solution” Nature Energy (2016)
“Reversible and cooperative photoactivation of single-atom Cu/TiO2 photocatalysts” Nature Materials (2019)
“Free Floating Ultrathin Two Dimensional Crystals from Sequence Specific Peptoid Polymers” Nature (2010)
“Enantioselective Sensing by Collective Circular Dichroism” Nature (2022)
“Amino-Acid- and Peptide-Directed Synthesis of Chiral Plasmonic Gold Nanoparticles” Nature (2018)
“Virus Enabled Synthesis and Assembly of Nanowires for Lithium Ion Battery Electrodes” Science (2006)
“Redox-neutral electrochemical conversion of CO2 to dimethyl carbonate” Nature Energy (2021)
Electrochemically initiated synthesis of ethylene carbonate from CO2, Nature Synthesis (2024)
Investigating Chiral Morphogenesis of Gold Using Generative Cellular Automata, Nature Material (2024)
“Photocatalytic Hydrogen Generation from Hydriodic Acid Using Methylammonium Lead Iodide in Dynamic
Equilibrium with Aqueous Solution” Nature Energy (2016)
“Reversible and cooperative photoactivation of single-atom Cu/TiO2 photocatalysts” Nature Materials (2019)
“Free Floating Ultrathin Two Dimensional Crystals from Sequence Specific Peptoid Polymers” Nature (2010)
Lab Overview
Exploring the interface between Biological System and Synthetic Materials
1) Electrocatalyst for Water Oxidation and Electrochlorination
2) Reaction design for CO2 Storage and Utilization
3) Bioinspired synthesis of chiral plasmonic nanomaterials
1) Electrocatalyst for Water Oxidation and Electrochlorination
2) Reaction design for CO2 Storage and Utilization
3) Bioinspired synthesis of chiral plasmonic nanomaterials