S
Seung Hyun Song
Researcher at Sookmyung Women's University
Publications - 55
Citations - 1956
Seung Hyun Song is an academic researcher from Sookmyung Women's University. The author has contributed to research in topics: Ultrasonic sensor & Medicine. The author has an hindex of 14, co-authored 43 publications receiving 1349 citations. Previous affiliations of Seung Hyun Song include Purdue University & Sungkyunkwan University.
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Journal ArticleDOI
Bandgap engineering of two-dimensional semiconductor materials
Andrey Chaves,Javad G. Azadani,Hussain Alsalman,Hussain Alsalman,D. R. da Costa,Riccardo Frisenda,A. J. Chaves,Seung Hyun Song,Young Duck Kim,Daowei He,Daowei He,Jiadong Zhou,Andres Castellanos-Gomez,François M. Peeters,Zheng Liu,Christopher L. Hinkle,Sang Hyun Oh,Peide D. Ye,Steven J. Koester,Young Hee Lee,Phaedon Avouris,Xinran Wang,Tony Low +22 more
TL;DR: In this paper, a review of the basic physical principles of these various techniques on the engineering of quasi-particle and optical bandgaps, their bandgap tunability, potentials and limitations in practical 2D device technologies are provided.
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Room Temperature Semiconductor–Metal Transition of MoTe2 Thin Films Engineered by Strain
TL;DR: The demonstrated strain-modulation of the phase transition temperature is expected to be compatible with other T MDs enabling the 2D electronics utilizing polymorphism of TMDs along with the established materials.
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High-performance n-type black phosphorus transistors with type control via thickness and contact-metal engineering
TL;DR: This work reports unipolar n-type black phosphorus transistors with switching polarity control via contact-metal engineering and flake thickness, combined with oxygen and moisture-free fabrication, demonstrating a leap in n- type performance and exemplify the logical switching capabilities of black phosphorus.
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Correction: Corrigendum: High-performance n-type black phosphorus transistors with type control via thickness and contact-metal engineering
TL;DR: A large number of errors in the colours used for the data points and curves were found, including one referring to a thickness of ‘3.5 nm’.
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An Ultrasonically Powered Implantable Micro-Oxygen Generator (IMOG)
TL;DR: In vitro and ex vivo experiments showed that IMOG is capable of generating more than 150 μA which, in turn, can create 0.525 μL/min of oxygen through electrolytic disassociation, which is adequate in situ tumor oxygenation in less than 10 min.