Jeong Ho Cho
Yonsei University
464 Papers
2.2K Citations
Jeong Ho Cho is an academic researcher from Yonsei University. The author has contributed to research in topics: Graphene & Transistor. The author has an hindex of 58, co-authored 399 publications. Previous affiliations of Jeong Ho Cho include Northwestern University & Sungkyunkwan University.
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Papers
pn-Heterojunction Effects of Perylene Tetracarboxylic Diimide Derivatives on Pentacene Field-Effect Transistor
Seong Hun Yu,Boseok Kang,Gukil An,Bongsoo Kim,Moo Hyung Lee,Moon Sung Kang,Hyunjung Kim,Jung Heon Lee,Shichoon Lee,Kilwon Cho,Jun Young Lee,Jeong Ho Cho +11 more
TL;DR: The film-morphology-dependent doping effects observed here offer practical guidelines for achieving more effective charge transfer doping in thin-film transistors.
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A biomimetic ocular prosthesis system: emulating autonomic pupil and corneal reflections
Seong-Won Kim,Yoon Young Choi,Taewan Kim,Yong Min Kim,Dong Hae Ho,Young Jin Choi,Dong Gue Roe,Ju-Hee Lee,Joon-Oh Park,Ji Woong Choi,Jeong Won Kim,Jin-Hong Park,Sae Byeok Jo,Hong Chul Moon,So Hee Jeong,Jeong Ho Cho +15 more
TL;DR: A biomimetic ocular prosthesis system that mimics the human light modulation response capable of pupil and corneal reflections was proposed in this paper . But it is not suitable for the use in medical applications.
Carbon nanotube ferroelectric random access memory cell based on omega-shaped ferroelectric gate
TL;DR: In this article, the authors presented a flexible 1T1T-FeRAM cell with a one-transistor-one transistor structure composed of a control transistor (CT) and an omega-shaped ferroelectric memory transistor (MT).
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Roll-to-roll redox-welding and embedding for silver nanowire network electrodes
Yeontae Kim,Yeong Eun Sul,Hyungseok Kang,Yongsuk Choi,Ho Sun Lim,Sungjoo Lee,Lyongsun Pu,Gi-Ra Yi,Sung Min Cho,Jeong Ho Cho +9 more
TL;DR: The redox-welding and embedding processes provide a facile and reliable method for fabricating large-area transparent flexible electrodes for next-generation flexible optoelectronic devices.
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Wafer‐Scale Patterning of Reduced Graphene Oxide Electrodes by Transfer‐and‐Reverse Stamping for High Performance OFETs
Joong Suk Lee,Nam Hee Kim,Moon Sung Kang,Hojeong Yu,Dong Ryoul Lee,Joon Hak Oh,Suk Tai Chang,Jeong Ho Cho +7 more
TL;DR: This simple, inexpensive, and scalable electrode-patterning-technique leads to assembling organic complementary circuits onto a flexible substrate successfully and demonstrates the general utility of this technique.
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