Tien Tien Yeh scite author profile

The recent focus on topological insulators is due to the scientific interest in the new state of quantum matter as well as the technology potential for a new generation of THz optoelectronics, spintronics and quantum computations. It is important to elucidate the dynamics of the Dirac fermions in the topologically protected surface state. Hence we utilized a novel ultrafast optical pump mid-infrared probe to explore the dynamics of Dirac fermions near the Dirac point. The femtosecond snapshots of the relaxation process were revealed by the ultrafast optics. Specifically, the Dirac fermion-phonon coupling strength in the Dirac cone was found to increase from 0.08 to 0.19 while Dirac fermions were away from the Dirac point into higher energy states. Further, the energy-resolved transient reflectivity spectra disclosed the energy loss rate of Dirac fermions at room temperature was about 1 meV/ps. These results are crucial to the design of Dirac fermion devices.

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Atomic-Layer Controlled Interfacial Band Engineering at Two-Dimensional Layered PtSe₂/Si Heterojunctions for Efficient Photoelectrochemical Hydrogen Production

Chung

Yeh

et al. 2021

ACS Nano

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Platinum diselenide (PtSe2) is a group-10 two-dimensional (2D) transition metal dichalcogenide that exhibits the most prominent atomic-layer-dependent electronic behavior of “semiconductor-to-semimetal” transition when going from monolayer to bulk form. This work demonstrates an efficient photoelectrochemical (PEC) conversion for direct solar-to-hydrogen (H2) production based on 2D layered PtSe2/Si heterojunction photocathodes. By systematically controlling the number of atomic layers of wafer-scale 2D PtSe2 films through chemical vapor deposition (CVD), the interfacial band alignments at the 2D layered PtSe2/Si heterojunctions can be appropriately engineered. The 2D PtSe2/p-Si heterojunction photocathode consisting of a PtSe2 thin film with a thickness of 2.2 nm (or 3 atomic layers) exhibits the optimized band alignment and delivers the best PEC performance for hydrogen production with a photocurrent density of −32.4 mA cm–2 at 0 V and an onset potential of 1 mA cm–2 at 0.29 V versus a reversible hydrogen electrode (RHE) after post-treatment. The wafer-scale atomic-layer controlled band engineering of 2D PtSe2 thin-film catalysts integrated with the Si light absorber provides an effective way in the renewable energy application for direct solar-to-hydrogen production.

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Ultrafast carrier dynamics in Ge by ultra-broadband mid-infrared probe spectroscopy

Yeh

Shirai

et al. 2017

Sci Rep

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In this study, we carried out 800-nm pump and ultra-broadband mid-infrared (MIR) probe spectroscopy with high time-resolution (70 fs) in bulk Ge. By fitting the time-resolved difference reflection spectra [ΔR(ω)/R(ω)] with the Drude model in the 200–5000 cm−1 region, the time-dependent plasma frequency and scattering rate have been obtained. Through the calculation, we can further get the time-dependent photoexcited carrier concentration and carrier mobility. The Auger recombination essentially dominates the fast relaxation of photoexcited carriers within 100 ps followed by slow relaxation due to diffusion. Additionally, a novel oscillation feature is clearly found in time-resolved difference reflection spectra around 2000 cm−1 especially for high pump fluence, which is the Lorentz oscillation lasting for about 20 ps due to the Coulomb force exerted just after the excitation.

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Manifestation of a Second Dirac Surface State and Bulk Bands in THz Radiation from Topological Insulators

Yeh

Tzeng

et al. 2015

Sci Rep

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Topological insulators (TIs) are interesting quantum matters that have a narrow bandgap for bulk and a Dirac-cone-like conducting surface state (SS). The recent discovered second Dirac surface state (SS) and bulk bands (BBs) located ~1.5 eV above the first SS are important for optical coupling in TIs. Here, we report on the time-domain measurements of THz radiation generated from TIs n-type Cu0.02Bi2Se3 and p-type Bi2Te3 single crystals by ultrafast optical pulse excitation. The observed polarity-reversal of the THz pulse originated from transient current is unusual, and cannot be reconciled with the photo-Dember effect. The second SS and BBs are found to be indispensable for the explanation of the unusual phenomenon. Thanks to the existence of the second SS and BBs, TIs manifest an effective wide band gap in THz generation. The present study demonstrates that time-domain THz spectroscopy provide rich information of the optical coupling and the electronic structure of TIs.

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Tien Tien Yeh

THz Generation and Detection on Dirac Fermions in Topological Insulators

Snapshots of Dirac Fermions near the Dirac Point in Topological Insulators

Atomic-Layer Controlled Interfacial Band Engineering at Two-Dimensional Layered PtSe₂/Si Heterojunctions for Efficient Photoelectrochemical Hydrogen Production

Ultrafast carrier dynamics in Ge by ultra-broadband mid-infrared probe spectroscopy

Manifestation of a Second Dirac Surface State and Bulk Bands in THz Radiation from Topological Insulators

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Tien Tien Yeh

THz Generation and Detection on Dirac Fermions in Topological Insulators

Snapshots of Dirac Fermions near the Dirac Point in Topological Insulators

Atomic-Layer Controlled Interfacial Band Engineering at Two-Dimensional Layered PtSe2/Si Heterojunctions for Efficient Photoelectrochemical Hydrogen Production

Ultrafast carrier dynamics in Ge by ultra-broadband mid-infrared probe spectroscopy

Manifestation of a Second Dirac Surface State and Bulk Bands in THz Radiation from Topological Insulators

Contact Info

Product

Resources

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Atomic-Layer Controlled Interfacial Band Engineering at Two-Dimensional Layered PtSe₂/Si Heterojunctions for Efficient Photoelectrochemical Hydrogen Production