M
Myung-Ho Bae
Researcher at Korea Research Institute of Standards and Science
Publications - 128
Citations - 5150
Myung-Ho Bae is an academic researcher from Korea Research Institute of Standards and Science. The author has contributed to research in topics: Graphene & Josephson effect. The author has an hindex of 30, co-authored 119 publications receiving 4679 citations. Previous affiliations of Myung-Ho Bae include Korea University of Science and Technology & Pohang University of Science and Technology.
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Fabrication and electrical characteristics of high-performance ZnO nanorod field-effect transistors
TL;DR: In this paper, the fabrication and electrical characteristics of highmobility field effect transistors (FETs) using ZnO nanorods were reported, and the role of the polymer coating in the enhancement of the devices was discussed.
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Stretchable, Transparent Graphene Interconnects for Arrays of Microscale Inorganic Light Emitting Diodes on Rubber Substrates
Rak-Hwan Kim,Myung-Ho Bae,Dae Gon Kim,Huanyu Cheng,Bong Hoon Kim,Bong Hoon Kim,Dae-Hyeong Kim,Ming Li,Ming Li,Jian Wu,Frank Du,Hoon Kim,Stanley Kim,David Estrada,Suck Won Hong,Yonggang Huang,Eric Pop,John A. Rogers +17 more
TL;DR: The fabrication and design principles for using transparent graphene interconnects in stretchable arrays of microscale inorganic light emitting diodes (LEDs) on rubber substrates are described and several appealing properties of graphene are demonstrated, including its ability to spontaneously conform to significant surface topography.
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Nanoscale Joule heating, Peltier cooling and current crowding at graphene–metal contacts
TL;DR: The authors' data indicate that thermoelectric effects account for up to one-third of the contact temperature changes, and that current crowding accounts for most of the remainder, andModelling predicts that the role ofCurrent crowding will diminish and the roles of thermoeLECTric effects will increase as contacts improve.
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Heat Conduction across Monolayer and Few-Layer Graphenes
TL;DR: The findings suggest that metal contacts can limit not only electrical transport but also thermal dissipation from submicrometer graphene devices.
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Bright visible light emission from graphene
Young Duck Kim,Hakseong Kim,Yujin Cho,Ji Hoon Ryoo,Cheol-Hwan Park,Pilkwang Kim,Yong Seung Kim,Sunwoo Lee,Yilei Li,Seung Nam Park,Yong Shim Yoo,Duhee Yoon,Vincent E. Dorgan,Eric Pop,Tony F. Heinz,James Hone,Seung-Hyun Chun,Hyeonsik Cheong,Sangwook Lee,Myung-Ho Bae,Yun Daniel Park +20 more
TL;DR: Hot electrons become spatially localized at the centre of the graphene layer, resulting in a 1,000-fold enhancement in thermal radiation efficiency and paving the way towards the realization of commercially viable large-scale, atomically thin, flexible and transparent light emitters and displays with low operation voltage and graphene-based on-chip ultrafast optical communications.