D
Dae Ho Yoon
Researcher at Sungkyunkwan University
Publications - 282
Citations - 5835
Dae Ho Yoon is an academic researcher from Sungkyunkwan University. The author has contributed to research in topics: Phosphor & Photoluminescence. The author has an hindex of 37, co-authored 252 publications receiving 4715 citations. Previous affiliations of Dae Ho Yoon include Samsung & Tohoku University.
Papers
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Journal ArticleDOI
Flexible glucose sensor using CVD-grown graphene-based field effect transistor
Yeon Hwa Kwak,Dong Soo Choi,Yena Kim,Hyeongkeun Kim,Dae Ho Yoon,Sang-Sik Ahn,Ji-Woon Yang,Woo Seok Yang,Sungkyu Seo +8 more
TL;DR: A flexible glucose sensor using a CVD-grown graphene-based field-effect-transistor (FET) is demonstrated, which provides excellent fitting to a model curve even when deformed, high resolution, and continuous real-time monitoring.
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Unoxidized Graphene/Alumina Nanocomposite: Fracture- and Wear-Resistance Effects of Graphene on Alumina Matrix
Hyo Jin Kim,Sung-Min Lee,Yoon-Suk Oh,Young-Hwan Yang,Young Soo Lim,Dae Ho Yoon,Changgu Lee,Jong-Young Kim,Rodney S. Ruoff +8 more
TL;DR: The synthesis of unoxidized graphene/alumina composite materials having enhanced toughness, strength, and wear-resistance by a low-cost and environmentally benign pressure-less-sintering process is reported on.
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Tailoring of Deep‐Red Luminescence in Ca2SiO4:Eu2+
Yasushi Sato,Yasushi Sato,Hideki Kato,Makoto Kobayashi,Takaki Masaki,Dae Ho Yoon,Masato Kakihana +6 more
TL;DR: A new dicalcium silicate phosphor, Ca(2-x)Eu(x)SiO4, which emits red light in response to blue-light excitation, is reported, which is promising materials for next-generation, white-light-emitting diode applications.
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Comparative evaluation of magnetite-graphene oxide and magnetite-reduced graphene oxide composite for As(III) and As(V) removal.
TL;DR: In terms of the process energy consumption, energy saving could be achieved via omitting the reduction process to fabricate M-rGO from M-GO and the pre-oxidation process to convert As(III) to As(V).
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Crystal growth of dislocation-free LiNbO3 single crystals by micro pulling down method
TL;DR: LiNbO 3 micro single crystals were succesfully grown by a crystal growth method using a micro nozzle in the bottom of a crucible as discussed by the authors, and the grown crystals were revealed to be free of dislocations and subgrain boundaries up to 500 μ m in diameter.