Search

Your search keyword '"Yu, Seong Uk"' showing total 14 results
Start Over Author "Yu, Seong Uk"
14 results on '"Yu, Seong Uk"'

1. Proximity Effect Induced Electronic Properties of Epitaxial Graphene on Bi2Te2Se

Author

Lee, Paengro, Jin, Kyung-Hwan, Sung, Si Jin, Kim, Jin Gul, Ryu, Min-Tae, Park, Hee-Min, Jhi, Seung-Hoon, Kim, Namdong, Kim, Yongsam, Yu, Seong Uk, Kim, Kwang S., Noh, Do Young, and Chung, Jinwook

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report that the {\pi}-electrons of graphene can be spin-polarized to create a phase with a significant spin-orbit gap at the Dirac point (DP) using a graphene-interfaced topological insulator hybrid material. We have grown epitaxial Bi2Te2Se (BTS) films on a chemical vapor deposition (CVD) graphene. We observe two linear surface bands both from the CVD graphene notably flattened and BTS coexisting with their DPs separated by 0.53 eV in the photoemission data measured with synchrotron photons. We further demonstrate that the separation between the two DPs, {\Delta}D-D, can be artificially fine-tuned by adjusting the amount of Cs atoms adsorbed on the graphene to a value as small as {\Delta}D-D = 0.12 eV to find any proximity effect induced by the DPs. Our density functional theory calculation shows a spin-orbit gap of ~20 meV in the {\pi}-band enhanced by three orders of magnitude from that of a pristine graphene, and a concomitant phase transition from a semi-metallic to a quantum spin Hall phase when {\Delta}D-D $\leq$ 0.20 eV. We thus present a practical means of spin-polarizing the {\pi}-band of graphene, which can be pivotal to advance the graphene-based spintronics., Comment: ACS Nano accepted (2015)

Published
2015

2. Persistent Topological Surface State at the Interface of Bi2Se3 Film Grown on Patterned Graphene

Author

Kim, Namdong, Lee, Paengro, Kim, Youngwook, Kim, Jun Sung, Kim, Yongsam, Noh, Do Young, Yu, Seong Uk, Chung, Jinwook, and Kim, Kwang S.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We employed graphene as a patternable template to protect the intrinsic surface states of thin films of topological insulators (TIs) from environment. Here we find that the graphene provides high-quality interface so that the Shubnikov de Haas (SdH) oscillation associated with a topological surface state could be observed at the interface of a metallic Bi2Se3 film with a carrier density higher than ~10^19 cm-3. Our in situ X-ray diffraction study shows that the Bi2Se3 film grows epitaxially in a quintuple layer-by-layer fashion from the bottom layer without any structural distortion by interfacial strain. The magnetotransport measurements including SdH oscillations stemming from multiple conductance channels reveal that the topological surface state, with the mobility as high as ~0.5 m^2/Vs, remains intact from the graphene underneath without degradation. Given that the graphene was prepatterned on arbitrary insulating substrates, the TI-based microelectronic design could be exploited. Our study thus provides a step forward to observe the topological surface states at the interface without degradation by tuning the interface between TI and graphene into a measurable current for device application.

Published
2014

6. Proximity Effect Induced Electronic Properties of Graphene on Bi2Te2Se

Author

Lee, Paengro, primary, Jin, Kyung-Hwan, additional, Sung, Si Jin, additional, Kim, Jin Gul, additional, Ryu, Min-Tae, additional, Park, Hee-Min, additional, Jhi, Seung-Hoon, additional, Kim, Namdong, additional, Kim, Yongsam, additional, Yu, Seong Uk, additional, Kim, Kwang S., additional, Noh, Do Young, additional, and Chung, Jinwook, additional

Published
2015
Full Text
View/download PDF

7. A Facile Route for Patterned Growth of Metal–Insulator Carbon Lateral Junction through One-Pot Synthesis

Author

Park, Beomjin, primary, Park, Jaesung, additional, Son, Jin Gyeong, additional, Kim, Yong-Jin, additional, Yu, Seong Uk, additional, Park, Hyo Ju, additional, Chae, Dong-Hun, additional, Byun, Jinseok, additional, Jeon, Gumhye, additional, Huh, Sung, additional, Lee, Seoung-Ki, additional, Mishchenko, Artem, additional, Hyun, Seung, additional, Lee, Tae Geol, additional, Han, Sang Woo, additional, Ahn, Jong-Hyun, additional, Lee, Zonghoon, additional, Hwang, Chanyong, additional, Novoselov, Konstantin S., additional, Kim, Kwang S., additional, Hong, Byung Hee, additional, and Kim, Jin Kon, additional

Published
2015
Full Text
View/download PDF

13. Persistent Topological Surface State at the Interface of Bi2Se3Film Grown on Patterned Graphene

Author

Kim, Namdong, Lee, Paengro, Kim, Youngwook, Kim, Jun Sung, Kim, Yongsam, Noh, Do Young, Yu, Seong Uk, Chung, Jinwook, and Kim, Kwang S.

Abstract

We employed graphene as a patternable template to protect the intrinsic surface states of thin films of topological insulators (TIs) from environment. Here we find that the graphene provides high-quality interface so that the Shubnikov de Haas (SdH) oscillation associated with a topological surface state could be observed at the interface of a metallic Bi2Se3film with a carrier density higher than ∼1019cm–3. Our in situX-ray diffraction study shows that the Bi2Se3film grows epitaxially in a quintuple layer-by-layer fashion from the bottom layer without any structural distortion by interfacial strain. The magnetotransport measurements including SdH oscillations stemming from multiple conductance channels reveal that the topological surface state, with the mobility as high as ∼0.5 m2/(V s), remains intact from the graphene underneath without degradation. Given that the graphene was prepatterned on arbitrary insulating substrates, the TI-based microelectronic design could be exploited. Our study thus provides a step forward to observe the topological surface states at the interface without degradation by tuning the interface between TI and graphene into a measurable current for device application.

Published
2014
Full Text
View/download PDF

14. Spectromicroscopic observation of a live single cell in a biocompatible liquid-enclosing graphene system.

Author

Yu SU, Lee H, Cho WJ, Kim C, Kang MC, Shin HJ, Kim N, Hahn SK, and Kim KS

Subjects
Biocompatible Materials, Cell Line, Humans, Microscopy, Confocal, Oxidation-Reduction, Oxygen, Water, X-Rays, Graphite chemistry, Microscopy methods, Spectrum Analysis methods
Abstract

On-the-spot visualization of biochemical responses of intact live cells is vital for a clear understanding of cell biology. The main obstacles for instant visualization of biochemical responses of living cells arise from the lack of a sophisticated detecting technique which can simultaneously provide chemical analysis tools and the biocompatible wet conditions. Here we introduce scanning transmission X-ray microscopy (STXM) combined with a liquid-enclosing graphene system (LGS), offering biocompatible conditions and improved X-ray absorption spectra to probe the chemical responses of live cells under wet conditions. This set-up enables us to probe a subtle change in absorption spectra depending on the oxidation state of a miniscule amount of oxygen in the functional groups present in each cell and its surroundings containing a minimal amount of liquid water. As an example of in situ biochemical responses of wet cells, chemical responses of a single Colo 205 cell are visualized and analyzed using X-ray absorption near the oxygen K-edge. This spectromicroscopic method using LGS can be applied to diverse biological samples under wet conditions for the analysis of their biochemical responses.

Published
2017
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results