M.S. Course
Jongbeom Kim ⎟ 김 종 범
(Feb. 2021 - Present)
Current Position • Department of Mechanical Engineering, College of Engineering, Kyung Hee University
Email • kjb04177@khu.ac.kr
Research interest • Feature Select using Machine Learning, Material-Driven SOH
Publication
• [Feb. 2022] "Importance of Chemical Distortion on the Hysteretic Oxygen Capacity in Li-Excess Layered Oxides", ACS Applied Materials & Interfaces
• [May. 2022] "Unified picture of (non)hysteretic oxygen capacity in O3-type sodium 3d layered oxides", Advanced Energy Materials
• [Jun. 2022] "Physicochemical screen effect of Li ions in oxygen redox cathodes for advanced sodium-ion batteries", Chemistry of Materials
• [Oct. 2022] "Design picture in enabling reversible oxygen capacity for O-type Na 3d layered oxides", Energy Storage Materials
• [Jan. 2024] "Data-riven Decoupling Structural Feature Correlation for Harnessing Anionic Capacity in Na Layered Oxide", Advanced Energy Materials
• [Mar. 2024] "Data-driven unlocking volume conservation in single-crystal Ni-rich layered oxides ", Energy Storage Materials
Conference
• "Selective oxygen redox in O3-type Mn-based sodium layered oxides", Poster, 2022년도 춘계 전기화학회 학술대회, 한국전기화학회, 2022.04, International Convention Center JEJU (ICC)
• "Design picture in enabling reversible oxygen capacity for O-type Na 3d layered oxides", Poster, 2022년도 추계 전기화학회 학술대회, 한국전기화학회, 2022.11, 부산전시컨벤션센터(BEXCO)
• "Stepwise Screening for Facilitating Reversible Oxygen Redox in O3-type Na Layered Oxides", Oral, 2023년도 춘계 전기화학회 학술대회, 한국전기화학회, 2023.04, International Convention Center JEJU (ICC)
Honors and Awards
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Joonyoung Kee ⎟ 기 준 영
(Sep. 2021 - Present)
Current Position • Department of Mechanical Engineering, College of Engineering, Kyung Hee University
Email • jykee1101@khu.ac.kr
Research interest • Data-Driven Design, Material-Driven Prediction
Publication
• [Oct. 2022] "Deciphering Enhanced Solid-State Kinetics of Li–S Batteries via Te Doping", ACS Applied Energy Materials
• [Mar. 2023] "Multiphysics factor facilitating fast reaction kinetics for high-power-density Li–Se batteries", Journal of Alloys and Compounds
• [Jan. 2024] "Data-Driven Decoupling Structural Feature Correlation for Harnessing Anionic Capacity in Na Layered Oxide", Advanced Energy Materials
• [Mar. 2024] "Data-driven unlocking volume conservation in single-crystal Ni-rich layered oxides ", Energy Storage Materials
Conference
• "Thermodynamic and Structural Understandings of Te-doped Li-S cathode", Poster, 2022년도 춘계 전기화학회 학술대회, 한국전기화학회, 2022.04, International Convention Center JEJU (ICC)
• "Thermodynamic and Structural Understandings of Te-doped Li-Se cathode", Poster, 2022년도 추계 전기화학회 학술대회, 한국전기화학회, 2022.11, 부산전시컨벤션센터(BEXCO)
Honors and Awards
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Juncheol Hwang ⎟ 황 준 철
(Sep. 2021 - Present)
Current Position • Department of Mechanical Engineering, College of Engineering, Kyung Hee University
Email • ghkd7063@khu.ac.kr
Research interest • Data-Driven Design, Kinetics, Multiscale Simulation, Alloy
Publication
• [Dec. 2022] "An in-depth understanding of chemomechanics in Ni-rich layered cathodes for lithium-ion batteries", Journal of Alloys and Compounds
• [Jan. 2023] "(In)Coherent-bond-networks in Ni-rich layered oxides for durable lithium-ion batteries", Chemical Engineering Journal
• [Nov. 2023] "Improvement of Thermodynamic Phase Stability and High-Rate Capability of Li Layered Oxides", ACS Material & Interfaces
• [Jan. 2024] "Data-Driven Decoupling Structural Feature Correlation for Harnessing Anionic Capacity in Na Layered Oxide", Advanced Energy Materials
Conference
• "Mysteries between O2- and O3-type layered lithium oxides", Poster, 2022년도 춘계 전기화학회 학술대회, 한국전기화학회, 2022.04, International Convention Center JEJU (ICC)
• "Unified Design flow for facilitating fast Li Kinetics in layered oxides cathode", Poster, 2022년도 추계 전기화학회 학술대회, 한국전기화학회, 2022.11, 부산전시컨벤션센터(BEXCO)
• "Thermodynamic Phase Stability for Facilitating High-Power Density in Li Layered Oxides", Oral, 2023년도 춘계 전기화학회 학술대회, 한국전기화학회, 2023.04, International Convention Center JEJU (ICC)
Honors and Awards
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Woosik Min ⎟ 민 우 식
(Oct. 2022 - Present)
Current Position • Department of Mechanical Engineering, College of Engineering, Kyung Hee University
Email • fizz0674@khu.ac.kr
Research interest • Next-generation Batteries (Lithium-sulfur and lithium metal batteries)
Publication
• [May. 2023] "Unified interplay of chemical bond and solid-state kinetics in lithium-sulfur batteries ", Advanced Energy Materials
• [Jan. 2024] "Data-Driven Decoupling Structural Feature Correlation for Harnessing Anionic Capacity in Na Layered Oxide", Advanced Energy Materials
• [Mar. 2024] "Data-driven unlocking volume conservation in single-crystal Ni-rich layered oxides ", Energy Storage Materials
Conference
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Honors and Awards
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Taesoo Kim ⎟ 김 태 수
(Mar. 2023 - Present)
Current Position • Department of Mechanical Engineering, College of Engineering, Kyung Hee University
Email • goldcab98@khu.ac.kr
Research interest • Material-Driven SOH, Feature Select using Machine Learning, Insitu Monitoring
Publication
• [Jan. 2024] "Data-Driven Decoupling Structural Feature Correlation for Harnessing Anionic Capacity in Na Layered Oxide", Advanced Energy Materials
Conference
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Honors and Awards
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Seokhyun Lee ⎟ 이 석 현
(Sep. 2022 - Present)
Current Position • Department of Mechanical Engineering, College of Engineering, Kyung Hee University
Email • sinsulee@khu.ac.kr
Research interest • Material-Driven Prediction, Machine Learning based on Charge Profile, Fast Charge Protocol
Publication
• [Jan. 2024] "Data-Driven Decoupling Structural Feature Correlation for Harnessing Anionic Capacity in Na Layered Oxide", Advanced Energy Materials
Conference
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Honors and Awards
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Seungun Shin ⎟ 신 승 운
(Mar. 2023 - Present)
Current Position • Department of Mechanical Engineering, College of Engineering, Kyung Hee University
Email • felix_shin@khu.ac.kr
Research interest • Material-Driven SOH, High-Throughput Computational Screening, Solid-State Electrolyte for ASSB, Materials Informatics Approach
Publication
• [Jan. 2024] "Data-Driven Decoupling Structural Feature Correlation for Harnessing Anionic Capacity in Na Layered Oxide", Advanced Energy Materials
Conference
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Honors and Awards
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