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Seung Min Han
Researcher at KAIST
Publications - 98
Citations - 5436
Seung Min Han is an academic researcher from KAIST. The author has contributed to research in topics: Deformation (engineering) & Nanopillar. The author has an hindex of 30, co-authored 90 publications receiving 4461 citations. Previous affiliations of Seung Min Han include Korea University of Science and Technology & Brown University.
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Journal ArticleDOI
Simultaneous Suppression of Shuttle Effect and Lithium Dendrite Growth by Lightweight Bifunctional Separator for Li–S Batteries
Seoa Kim,Won-Gwang Lim,Won-Gwang Lim,Ara Cho,Jooyoung Jeong,Jooyoung Jeong,Changshin Jo,DongGyu Kang,Seung Min Han,Jeong Woo Han,Jinwoo Lee +10 more
TL;DR: The practical use of lithium-sulfur battery (LSB) is impeded by the excessive growth of Li dendrite in the anode and the dissolution of soluble intermediates (shuttle effect) in the cathode as mentioned in this paper.
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Plasticity of indium nanostructures as revealed by synchrotron X-ray microdiffraction
Arief Suriadi Budiman,Gyuhyon Lee,Michael J. Burek,Dongchan Jang,Seung Min Han,Nobumichi Tamura,Martin Kunz,Julia R. Greer,Ting Y. Tsui +8 more
TL;DR: In this article, the authors used synchrotron Laue X-ray microdiffraction (μSLXRD) to evaluate the defect density evolution in indium columnar structures.
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Compression and tension bending fatigue behavior of Ag nanowire network
TL;DR: In this article, Fatigue behavior of Ag nanowire network subjected to different degrees of compressive bending strain was investigated and compared against the results from tensile bending strain, which showed excellent reliability showing only a 6.0% increase in fractional resistance at 400,000 cycles.
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Conversion Reaction of Nanoporous ZnO for Stable Electrochemical Cycling of Binderless Si Microparticle Composite Anode.
TL;DR: The Li2O/Zn matrix derived from conversion-reacted nanoporous ZnO acted as an effective buffer to lithiation-induced stresses from volume expansion and served as a binder-like matrix that contributed to the overall electrode capacity and stability.
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Effect of surface energy on size-dependent deformation twinning of defect-free Au nanowires
Byungil Hwang,Mijeong Kang,Subin Lee,Christopher R. Weinberger,Phillip Loya,Jun Lou,Sang Ho Oh,Bongsoo Kim,Seung Min Han +8 more
TL;DR: Molecular dynamics simulations confirmed that the transition from partial dislocation mediated plasticity to perfect dislocation plasticity with increase in the width-to-thickness ratio is due to the effect of the surface energy.