Jeehwan Kim, Ph.D.
Affiliations: | 2008 | University of California, Los Angeles, Los Angeles, CA |
Area:
Materials Science EngineeringGoogle:
"Jeehwan Kim"Parents
Sign in to add mentorYa-Hong Xie | grad student | 2008 | UCLA | |
(Dislocation-free lattice engineering of silicon and silicon-germanium.) |
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Publications
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Aljarb A, Fu JH, Hsu CC, et al. (2020) Ledge-directed epitaxy of continuously self-aligned single-crystalline nanoribbons of transition metal dichalcogenides. Nature Materials |
Yeon H, Lin P, Choi C, et al. (2020) Alloying conducting channels for reliable neuromorphic computing. Nature Nanotechnology |
Bae SH, Lu K, Han Y, et al. (2020) Graphene-assisted spontaneous relaxation towards dislocation-free heteroepitaxy. Nature Nanotechnology |
Kum HS, Lee H, Kim S, et al. (2020) Heterogeneous integration of single-crystalline complex-oxide membranes. Nature. 578: 75-81 |
Shim J, Bae SH, Kong W, et al. (2018) Controlled crack propagation for atomic precision handling of wafer-scale two-dimensional materials. Science (New York, N.Y.) |
Kong W, Li H, Qiao K, et al. (2018) Polarity governs atomic interaction through two-dimensional materials. Nature Materials |
Choi S, Tan SH, Li Z, et al. (2018) SiGe epitaxial memory for neuromorphic computing with reproducible high performance based on engineered dislocations. Nature Materials |
Shim J, Kang D, Kim Y, et al. (2018) Recent progress in Van der Waals (vdW) heterojunction-based electronic and optoelectronic devices Carbon. 133: 78-89 |
Shim J, Jo SH, Kim M, et al. (2017) Light-Triggered Ternary Device and Inverter Based on Heterojunction of van der Waals Materials. Acs Nano |
Kim Y, Cruz SS, Lee K, et al. (2017) Remote epitaxy through graphene enables two-dimensional material-based layer transfer. Nature. 544: 340-343 |