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Jongyeong Lee

About Jongyeong Lee

Jongyeong Lee, With an exceptional h-index of 7 and a recent h-index of 7 (since 2020), a distinguished researcher at Ulsan National Institute of Science and Technology, specializes in the field of transmission electron microscopy (TEM), deep learning, machine learning, exit-wave reconstruction, graphene.

His recent articles reflect a diverse array of research interests and contributions to the field:

Atomic-resolution in situ STEM with deep-learning-based object function reconstruction: A case study on 2D MoS2 formation on suspended graphene

Identification of Monolayer Graphene Substitutions by Deep Learning based Exit-Wave Reconstruction from Single Atomic-Resolution transmission electron microscope image

In Situ Scanning Transmission Electron Microscopy Study of MoS2 Formation on Graphene with a Deep-Learning Framework

Spontaneous Formation of a ZnO Monolayer by the Redox Reaction of Zn on Graphene Oxide

Direct identification of Cu atom substitutions in monolayer graphene from a single atomic-resolution transmission electron microscope image by deep learning based exit-wave …

Contrast transfer function-based exit-wave reconstruction and denoising of atomic-resolution transmission electron microscopy images of graphene and cu single atom …

Jongyeong Lee Information

University

Position

ASEM lab

Citations(all)

290

Citations(since 2020)

218

Cited By

162

hIndex(all)

7

hIndex(since 2020)

7

i10Index(all)

4

i10Index(since 2020)

4

Email

University Profile Page

Google Scholar

Jongyeong Lee Skills & Research Interests

transmission electron microscopy (TEM)

deep learning

machine learning

exit-wave reconstruction

graphene

Top articles of Jongyeong Lee

Atomic-resolution in situ STEM with deep-learning-based object function reconstruction: A case study on 2D MoS2 formation on suspended graphene

2021/11/4

Yeongdong Lee
Yeongdong Lee

H-Index: 3

Jongyeong Lee
Jongyeong Lee

H-Index: 4

Jaemin Kim
Jaemin Kim

H-Index: 7

Zonghoon Lee
Zonghoon Lee

H-Index: 42

Identification of Monolayer Graphene Substitutions by Deep Learning based Exit-Wave Reconstruction from Single Atomic-Resolution transmission electron microscope image

2021/10/7

Jongyeong Lee
Jongyeong Lee

H-Index: 4

Yeongdong Lee
Yeongdong Lee

H-Index: 3

Jaemin Kim
Jaemin Kim

H-Index: 7

Zonghoon Lee
Zonghoon Lee

H-Index: 42

In Situ Scanning Transmission Electron Microscopy Study of MoS2 Formation on Graphene with a Deep-Learning Framework

ACS omega

2021/8/10

Yeongdong Lee
Yeongdong Lee

H-Index: 3

Jongyeong Lee
Jongyeong Lee

H-Index: 4

Jaemin Kim
Jaemin Kim

H-Index: 7

Zonghoon Lee
Zonghoon Lee

H-Index: 42

Spontaneous Formation of a ZnO Monolayer by the Redox Reaction of Zn on Graphene Oxide

ACS Applied Materials & Interfaces

2020/11/18

Seungwoo Son
Seungwoo Son

H-Index: 2

Jongyeong Lee
Jongyeong Lee

H-Index: 4

Yeongdong Lee
Yeongdong Lee

H-Index: 3

Zonghoon Lee
Zonghoon Lee

H-Index: 42

Direct identification of Cu atom substitutions in monolayer graphene from a single atomic-resolution transmission electron microscope image by deep learning based exit-wave …

2020/11/13

Jongyeong Lee
Jongyeong Lee

H-Index: 4

Yeongdong Lee
Yeongdong Lee

H-Index: 3

Jaemin Kim
Jaemin Kim

H-Index: 7

Zonghoon Lee
Zonghoon Lee

H-Index: 42

Contrast transfer function-based exit-wave reconstruction and denoising of atomic-resolution transmission electron microscopy images of graphene and cu single atom …

Nanomaterials

2020/10/6

Jongyeong Lee
Jongyeong Lee

H-Index: 4

Yeongdong Lee
Yeongdong Lee

H-Index: 3

Jaemin Kim
Jaemin Kim

H-Index: 7

Zonghoon Lee
Zonghoon Lee

H-Index: 42

See List of Professors in Jongyeong Lee University(Ulsan National Institute of Science and Technology)

Co-Authors

academic-engine

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