
Jinho Byun
Education
- Ph.D Physics, Pusan National University (PNU), Korea (2021)
- B.S. Physics, Pusan National University (PNU), Korea (2021)
Computational Analysis and ML–Driven Development of 4D-STEM Methodologies
현재 연구 프로젝트를 수행하는 연구원과 학생입니다.

Computational Analysis and ML–Driven Development of 4D-STEM Methodologies

In-situ TEM analysis with ferroelectric tunneling junction (FTJ) devices

Quantitative analysis of phase change and structure of BST

Insitu-biasing of materials of the battery

(S)TEM of Battery Materials and Devices

(S)TEM analysis of phase and polarization of HZO

Machine Learning for Analyzing Amorphous IGZO

Military Service

Computational Electron Microscopy for Quantitative Three-dimensional Structural Analysis of TMD Heterostructures

1D-Ordered Structure in Strained NbWOx Thin Films

Probing cation distribution and electronic structure of ZnCo₂O₄ using atomic-resolution STEM

Atomic-scale investigation of catalytic materials using TEM
연구실을 거쳐 간 졸업생과 이전 구성원입니다.

AffiliationPost-doc at Korea Insititute of Materials Science

AffiliationPost-doc at Max Planck Institute for sustainable materials

AffiliationPost-doc at Xidian university
Research Topic: In-situ quantitative HR(S)TEM analysis of oxide material surface reconstruction at atomic scale

AffiliationPost-doc at UC Irvine
Research Topic: Surface Engineering & Analysis using in-situ (S)TEM

AffiliationSamsung Electronics
Research Topic: Quantitative analysis of phase change and structure at oxide interface

AffiliationSamsung Electro-Mechanics
Research Topic: Quantitative Analysis of the MLCC material

AffiliationAssistant professor at Hanyang University
Research Topic: Deformation mechanisms of structural materials

AffiliationKorean Institute of Materials Science
Research Topic: Quantitative atomic-scale imaging of materials

AffiliationPost-doc at Oxford Univ
Research Topic: Quantitative interpretation of nitride materials using electron holography

AffiliationSamgsung Electronics
Research Topic: Deformation mechanism of small-scale HCP metallic

AffiliationPh.D at POSTECH
Research Topic: High entropy steel

AffiliationPh.D at POSTECH
Research Topic: Toughening mechanisms of biomaterials

AffiliationPh.D at POSTECH

AffiliationMax Planck Institute for Iron Research at Duessuldorf
Research Topic: Deformation of single crystalline FCC nanomaterials

AffiliationSK Hynix
Research Topic: Resistive switching mechanism of next-generation memory devices
AffiliationPh.D at MIT
AffiliationLG Siltron
AffiliationHyundai Motors
Research Topic: Deformation mechanisms of structural materials
공동 연구를 함께 진행하는 외부 협력 연구자입니다.

D. Lee, H. Lu, Y. Gu, S.-Y. Choi, S.-D. Li, S. Ryu, T. R. Paudel, Kyung Song, E. Mikheev, S. Lee, S. Stemmer, D. A. Tenne, Sang Ho Oh, E. Y. Tsymbal, X. Wu, L.-Q. Chen, A. Gruverman*, C. B. Eom*, "Emergence of Room-Temperature Ferroelectricity at Reduced Dimensions", Science 349, 1314-1317, (2015).

Kyung Song*, Sangwoo Ryu, Hyungwoo Lee, Tula R. Paudel, Christoph T. Koch, Bumsu Park, Ja Kyung Lee, Si-Young Choi, Young-Min Kim, Jong Chan Kim, Hu Young Jeong, Mark S. Rzchowski, Evgeny Y. Tsymbal, Chang-Beom Eom, Sang Ho Oh*, “Direct imaging of the electron liquid at oxide interfaces”, Nature Nanotechnology 13, 198-203 (2018).

Subin Lee, Jiseong Im, Youngdong Yoo, Erik Bitzek, Bongsoo Kim, Sang Ho Oh*, "Reversible cyclic deformation mechanism of Au Nanowires by twinning-detwinning transition evidenced from in-situ TEM", Nature Communications 5, 3033 (2014).

Jiwon Jeong*, Markus Alfreider, Ruth Konetschnik, Daniel Kiener, Sang Ho Oh*, “In-situ TEM observation of {10-12} twin-dominated deformation of Mg pillars: Twinning mechanism, size effects and rate dependency“, Acta Materialia 158, 407-421 (2018). Sang Ho Oh*, Marc Legros, Daniel Kiener, Gerhard Dehm, “In situ Observation of Dislocation Nucleation and Escape in a Submicron Single-Crystal Al Wire”, Nature Materials 8, 95-100 (2009).

Kyung Song, Sangwoo Ryu, Hyungwoo Lee, Tula R. Paudel, Christoph T. Koch, Bumsu Park, Ja Kyung Lee, Si-Young Choi, Young-Min Kim, Jong Chan Kim, Hu Young Jeong, Mark S. Rzchowski, Evgeny Y. Tsymbal, Chang-Beom Eom, Sang Ho Oh*, “Direct imaging of the electron liquid at oxide interfaces”, Nature Nanotechnology 13, 198-203 (2018).

Yoon Ah Shin, Sheng Yin, Xiaoyan Li, Subin Lee, Sungmin Moon, Jiwon Jeong, Minhyug Kwon, Seung Jo Yoo, Young-Min Kim, Teng Zhang, Huajian Gao* and Sang Ho Oh*, "Nanotwin-governed toughening mechanism in hierarchically structured biological materials", Nature Communications 7, 10772 (2016).

Sang Ho Oh*, Marc Legros, Daniel Kiener, Gerhard Dehm, "In situ Observation of Dislocation Nucleation and Escape in a Submicron Single-Crystal Al Wire", Nature Materials 8, 95-100 (2009).