Yuki Wakisaka scite author profile

We report on a photoemission study of Ta2NiSe5 that has a quasi-one-dimensional structure and an insulating ground state. Ni 2p core-level spectra show that the Ni 3d subshell is partially occupied and the Ni 3d states are heavily hybridized with the Se 4p states. In angle-resolved photoemission spectra, the valence-band top is found to be extremely flat, indicating that the ground state can be viewed as an excitonic insulator state between the Ni 3d-Se 4p hole and the Ta 5d electron. We argue that the high atomic polarizability of Se plays an important role to stabilize the excitonic state.

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Excitonic Bose-Einstein condensation inTa2NiSe5above room temperature

Seki

et al. 2014

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Label-free chemical imaging flow cytometry by high-speed multicolor stimulated Raman scattering

Suzuki

Kobayashi

Wakisaka

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

166

132

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Combining the strength of flow cytometry with fluorescence imaging and digital image analysis, imaging flow cytometry is a powerful tool in diverse fields including cancer biology, immunology, drug discovery, microbiology, and metabolic engineering. It enables measurements and statistical analyses of chemical, structural, and morphological phenotypes of numerous living cells to provide systematic insights into biological processes. However, its utility is constrained by its requirement of fluorescent labeling for phenotyping. Here we present label-free chemical imaging flow cytometry to overcome the issue. It builds on a pulse pair-resolved wavelength-switchable Stokes laser for the fastest-to-date multicolor stimulated Raman scattering (SRS) microscopy of fast-flowing cells on a 3D acoustic focusing microfluidic chip, enabling an unprecedented throughput of up to ∼140 cells/s. To show its broad utility, we use the SRS imaging flow cytometry with the aid of deep learning to study the metabolic heterogeneity of microalgal cells and perform marker-free cancer detection in blood.

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Probing the metabolic heterogeneity of live Euglena gracilis with stimulated Raman scattering microscopy

Wakisaka

Suzuki

Iwata³

et al. 2016

Nat Microbiol

114

110

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Understanding metabolism in live microalgae is crucial for efficient biomaterial engineering, but conventional methods fail to evaluate heterogeneous populations of motile microalgae due to the labelling requirements and limited imaging speeds. Here, we demonstrate label-free video-rate metabolite imaging of live Euglena gracilis and statistical analysis of intracellular metabolite distributions under different culture conditions. Our approach provides further insights into understanding microalgal heterogeneity, optimizing culture methods and screening mutant microalgae.

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Photoemission Spectroscopy of Ta2NiSe5

Wakisaka

Sudayama

Takubo

et al. 2012

J Supercond Nov Magn

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We report temperature-dependent angle-resolved photoemission spectroscopy measurement of Ta2NiSe5 which shows a semiconductor-semiconductor structural phase transition at around 330 K. Characteristically, flat band at the top of the valence band is observed, which is ascribed to the excitonic insulator effect. The top valence band shifts to higher binding energy and its bandwidth increases as the temperature decreases. As the system exceeds the transition temperature, the flat feature of the valence band weakens though the exciton fluctuations remain finite

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Yuki Wakisaka

Excitonic Insulator State inTa2NiSe5Probed by Photoemission Spectroscopy

Excitonic Bose-Einstein condensation inTa2NiSe5above room temperature

Label-free chemical imaging flow cytometry by high-speed multicolor stimulated Raman scattering

Probing the metabolic heterogeneity of live Euglena gracilis with stimulated Raman scattering microscopy

Photoemission Spectroscopy of Ta2NiSe5

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