T
Tae Eon Park
Researcher at Korea Institute of Science and Technology
Publications - 40
Citations - 2162
Tae Eon Park is an academic researcher from Korea Institute of Science and Technology. The author has contributed to research in topics: Nanowire & Doping. The author has an hindex of 15, co-authored 39 publications receiving 1356 citations. Previous affiliations of Tae Eon Park include Yonsei University & Pohang University of Science and Technology.
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Journal ArticleDOI
Direct Observation of Fe-Ge Ordering in Fe5−xGeTe2 Crystals and Resultant Helimagnetism
Trinh Thi Ly,Jungmin Park,Kyoo Kim,Kyoo Kim,Hyobin Ahn,Nyun Jong Lee,Kwangsu Kim,Tae Eon Park,Ganbat Duvjir,Nguyen Huu Lam,Kyuha Jang,Chun-Yeol You,Younghun Jo,Se Kwon Kim,Changgu Lee,Sanghoon Kim,Jungdae Kim +16 more
Journal ArticleDOI
Magnetic and Electrical Properties of Single-Crystalline Mn-Doped Ge Nanowires
Han Kyu Seong,Ungkil Kim,Eun Kyung Jeon,Tae Eon Park,Hwangyou Oh,Tae Hyun Lee,Ju Jin Kim,Heon Jin Choi,Jae Young Kim +8 more
TL;DR: In this paper, the synthesis of Mn-doped Ge nanowires and their magnetic and electrical properties were reported, which indicated that the ferromagnetism originates from doped Mn2+ ions.
Journal ArticleDOI
Large spin accumulation and crystallographic dependence of spin transport in single crystal gallium nitride nanowires
Tae Eon Park,Youn Ho Park,Youn Ho Park,Jong Min Lee,Sung Wook Kim,Hee Gyum Park,Byoung-Chul Min,Hyung-jun Kim,Hyun Cheol Koo,Hyun Cheol Koo,Heon Jin Choi,Suk Hee Han,Mark Johnson,Joonyeon Chang +13 more
TL;DR: It is shown that the spin accumulation is significantly different for injection across the (001) and () (or ()) planes, which provides a technique for increasing room temperature spin injection in mesoscopic systems.
Journal ArticleDOI
Magnetic properties of vanadium-doped silicon carbide nanowires
TL;DR: In this article, the magnetic properties of vanadium-doped single crystalline silicon carbide nanowires were reported, and it was shown that the vanadium carbide phase can exhibit half-metallic ferromagnetic properties that are essential for the realization of spintronic devices.