Kyung Ik Sim scite author profile

Strong spin-orbit interaction and time-reversal symmetry in topological insulators generate novel quantum states called topological surface states. Their study provides unique opportunities to explore exotic phenomena such as spin Hall effects and topological phase transitions, relevant to the development of quantum devices for spintronics and quantum computation. Although ultrahigh-vacuum surface probes can identify individual topological surface states, standard electrical and optical experiments have so far been hampered by the interference of bulk and quantum well states. Here, with terahertz time-domain spectroscopy of ultrathin Bi 2 Se 3 films, we give evidence for topological phase transitions, a single conductance quantum per topological surface state, and a quantized terahertz absorbance of 2.9% (four times the fine structure constant). Our experiment demonstrates the feasibility to isolate, detect and manipulate topological surface states in the ambient at room temperature for future fundamental research on the novel physics of topological insulators and their practical applications.

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Directed self-assembly of a helical nanofilament liquid crystal phase for use as structural color reflectors

Park

Kim

et al. 2019

NPG Asia Mater

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The fabrication of molecular structures with a desired morphology, e.g., nanotubes, nanoribbons, nanosprings, and sponges, is essential for the advancement of nanotechnology. Unfortunately, realization of this objective is expensive and complicated. Here, we report that irradiating a film comprising azobenzene derivatives with UV light produces oriented arrays of helical nanofilaments via the photoisomerization-induced Weigert effect. As a result, structural colors are observed due to the extrinsic chiral reflection in the visible wavelength range, and the reflected color can be tuned by adjusting the molecular length of the azobenzene derivative. This simple fabrication method can be used for fabricating large, reversible, and patternable color reflectors, providing a new platform for interference-based structural coloration as it exists in nature, such as morpho butterflies, green-winged teal, and various beetles.

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Kagome van-der-Waals Pd3P2S8 with flat band

Park

Kang

Kim

et al. 2020

Sci Rep

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With the advanced investigations into low-dimensional systems, it has become essential to find materials having interesting lattices that can be exfoliated down to monolayer. One particular important structure is a kagome lattice with its potentially diverse and vibrant physics. We report a van-der-Waals kagome lattice material, Pd3P2S8, with several unique properties such as an intriguing flat band. The flat band is shown to arise from a possible compact-localized state of all five 4d orbitals of Pd. The diamagnetic susceptibility is precisely measured to support the calculated susceptibility obtained from the band structure. We further demonstrate that Pd3P2S8 can be exfoliated down to monolayer, which ultimately will allow the possible control of the localized states in this two-dimensional kagome lattice using the electric field gating.

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Thermoelectric properties of Mg₃Sb_2−xBi_xsingle crystals grown by Bridgman method

Kim¹,

Kim²,

Hong³

et al. 2015

Mater. Res. Express

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Kyung Ik Sim

Coherent many-body exciton in van der Waals antiferromagnet NiPS3

Terahertz single conductance quantum and topological phase transitions in topological insulator Bi2Se3 ultrathin films

Directed self-assembly of a helical nanofilament liquid crystal phase for use as structural color reflectors

Kagome van-der-Waals Pd3P2S8 with flat band

Thermoelectric properties of Mg₃Sb_2−xBi_xsingle crystals grown by Bridgman method

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Kyung Ik Sim

Coherent many-body exciton in van der Waals antiferromagnet NiPS3

Terahertz single conductance quantum and topological phase transitions in topological insulator Bi2Se3 ultrathin films

Directed self-assembly of a helical nanofilament liquid crystal phase for use as structural color reflectors

Kagome van-der-Waals Pd3P2S8 with flat band

Thermoelectric properties of Mg3Sb2−xBixsingle crystals grown by Bridgman method

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Resources

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Thermoelectric properties of Mg₃Sb_2−xBi_xsingle crystals grown by Bridgman method