Your search keyword '"Nishimura, Yushi"' showing total 28 results

1. Glass-patternable notch-shaped microwave architecture for on-chip spin detection in biological samples

Author

Oshimi, Keisuke, Nishimura, Yushi, Matsubara, Tsutomu, Tanaka, Masuaki, Shikoh, Eiji, Zhao, Li, Zou, Yajuan, Komatsu, Naoki, Ikado, Yuta, Takezawa, Yuka, Kage-Nakadai, Eriko, Izutsu, Yumi, Yoshizato, Katsutoshi, Morita, Saho, Tokunaga, Masato, Yukawa, Hiroshi, Baba, Yoshinobu, Teki, Yoshio, and Fujiwara, Masazumi

Subjects

Physics - Applied Physics, Quantum Physics

Abstract

We report a notch-shaped coplanar microwave waveguide antenna on a glass plate designed for on-chip detection of optically detected magnetic resonance (ODMR) of fluorescent nanodiamonds (NDs). A lithographically patterned thin wire at the center of the notch area in the coplanar waveguide realizes a millimeter-scale ODMR detection area (1.5 x 2.0 mm^2) and gigahertz-broadband characteristics with low reflection (about 8%). The ODMR signal intensity in the detection area is quantitatively predictable by numerical simulation. Using this chip device, we demonstrate a uniform ODMR signal intensity over the detection area for cells, tissue, and worms. The present demonstration of a chip-based microwave architecture will enable scalable chip integration of ODMR-based quantum sensing technology into various bioassay platforms.

Published

2022

2. Wide-field fluorescent nanodiamond spin measurements toward real-time large-area intracellular quantum thermometry

Author

Nishimura, Yushi, Oshimi, Keisuke, Umehara, Yumi, Kumon, Yuka, Miyaji, Kazu, Yukawa, Hiroshi, Shikano, Yutaka, Matsubara, Tsutomu, Fujiwara, Masazumi, Baba, Yoshinobu, and Teki, Yoshio

Subjects

Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

In this study, we analyze the operational process of nanodiamond (ND) quantum thermometry based on wide-field detection of optically detected magnetic resonance (ODMR) of nitrogen vacancy centers, and compare its performance with that of confocal ODMR detection. We found that (1) the thermometry results are significantly affected by the shape and size of the camera region of interest (ROI) surrounding the target NDs and that (2) by properly managing the ROI and acquisition parameters of the camera, a temperature precision comparable to confocal detection in living cells can be obtained by wide-field ODMR. Our results are significant to the development of camera-based real-time large-area quantum thermometry of living cells., Comment: 13 pages, 10 figures

Published

2020

3. Real-time estimation of the optically detected magnetic resonance shift in diamond quantum thermometry

Author

Fujiwara, Masazumi, Dohms, Alexander, Suto, Ken, Nishimura, Yushi, Oshimi, Keisuke, Teki, Yoshio, Cai, Kai, Benson, Oliver, and Shikano, Yutaka

Subjects

Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

We investigate the real-time estimation protocols for the frequency shift of optically detected magnetic resonance (ODMR) of nitrogen-vacancy (NV) centers in nanodiamonds (NDs). Efficiently integrating multipoint ODMR measurements and ND particle tracking into fluorescence microscopy has recently demonstrated stable monitoring of the temperature inside living animals. We analyze the multipoint ODMR measurement techniques (3-, 4-, and 6-point methods) in detail and quantify the amount of measurement artifact owing to several systematic errors derived from instrumental errors of experimental hardware and ODMR spectral shape. We propose a practical approach to minimize the effect of these factors, which allows for measuring accurate temperatures of single NDs during dynamic thermal events. We also discuss integration of noise filters, data estimation protocols, and possible artifacts for further developments in real-time temperature estimation. The present study provides technical details of quantum diamond thermometry and discusses factors that may affect the temperature estimation in biological applications., Comment: 24 pages, 20 figures, 2 tables

Published

2020

4. Real-time nanodiamond thermometry probing in-vivo thermogenic responses

Author

Fujiwara, Masazumi, Sun, Simo, Dohms, Alexander, Nishimura, Yushi, Suto, Ken, Takezawa, Yuka, Oshimi, Keisuke, Zhao, Li, Sadzak, Nikola, Umehara, Yumi, Teki, Yoshio, Komatsu, Naoki, Benson, Oliver, Shikano, Yutaka, and Kage-Nakadai, Eriko

Subjects

Quantitative Biology - Quantitative Methods, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Biological Physics, Quantum Physics

Abstract

Real-time temperature monitoring inside living organisms provides a direct measure of their biological activities, such as homeostatic thermoregulation and energy metabolism. However, it is challenging to reduce the size of bio-compatible thermometers down to submicrometers despite their potential applications for the thermal imaging of subtissue structures with single-cell resolution. Light-emitting nanothermometers that remotely sense temperature via optical signals exhibit considerable potential in such \textit{in-vivo} high-spatial-resolution thermometry. Here, using quantum nanothermometers based on optically accessible electron spins in nanodiamonds (NDs), we demonstrate \textit{in-vivo} real-time temperature monitoring inside \textit{Caenorhabditis elegans} (\textit{C. elegans}) worms. We developed a thermometry system that can measure the temperatures of movable NDs inside live adult worms with a precision of $\pm 0.22^{\circ}{\rm C}$. Using this system, we determined the increase in temperature based on the thermogenic responses of the worms during the chemical stimuli of mitochondrial uncouplers. Our technique demonstrates sub-micrometer localization of real-time temperature information in living animals and direct identification of their pharmacological thermogenesis. The results obtained facilitate the development of a method to probe subcellular temperature variation inside living organisms and may allow for quantification of their biological activities based on their energy expenditures., Comment: 9 + 10 pages, 4 + 11 figures, our submission is jointly with the paper arXiv:2001.02664

Published

2020

5. Effect of surface oxidation on electron spin coherence of single nitrogen-vacancy centers in nanodiamonds

Author

Tsukahara, Ryuta, Fujiwara, Masazumi, Sera, Yoshihiko, Nishimura, Yushi, Sugai, Yuko, Jentgens, Christian, Teki, Yoshio, Hashimoto, Hideki, and Shikata, Shinichi

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

Fluorescent nanodiamonds (NDs) are crystal defect-based light-emitting nanoparticles that can be applied to quantum information science and quantum sensing. Of particular interest are nitrogen vacancy (NV) centers that allow optical access to their coherently controllable electron spin systems, leading to spin-photon quantum devices and nanoscale sensing of various physical parameters. However, the NV spin coherence time (T2) in NDs has been limited to one or two orders of magnitude shorter than those in bulk diamonds owing to the complicated surface effect that decoheres the NV spin systems. Here, we study the relation between the surface properties and T2 of single NV centers in NDs by systematically analyzing the effect of surface oxidation. We apply aerobic and acidic oxidation methods with various heating temperatures and processing times and find that aerobic oxidation most effectively oxidizes the surface and extends T2 by a factor of 1.6 to the original NDs. The ND-size dependence of T2 clearly shows that the surface oxidation removes a constant decoherence contribution irrespective of the ND size and that a new surface derived decoherence source emerges when the ND size reduces below 50 nm. The present results provide quantitative information on the decoherence sources of NV spin systems of NDs and will enable a strategic surface modification for better spin manipulations of NV centers in the context of quantum information science and nanoscale quantum sensing.

Published

2018

6. Quantification of Poly(ethylene glycol) Crowding on Nanodiamonds toward Quantum Biosensor for Improved Prevention Effects on Protein Adsorption and Lung Accumulation

Author

Rikiyama, Kazuaki, primary, Maehara, Nanami, additional, Abe, Hiroshi, additional, Nishimura, Yushi, additional, Yukawa, Hiroshi, additional, Kaminaga, Kiichi, additional, Igarashi, Ryuji, additional, and Osada, Kensuke, additional

Published

2024

7. Glass-patternable notch-shaped microwave architecture for on-chip spin detection in biological samples

Author

Oshimi, Keisuke, primary, Nishimura, Yushi, additional, Matsubara, Tsutomu, additional, Tanaka, Masuaki, additional, Shikoh, Eiji, additional, Zhao, Li, additional, Zou, Yajuan, additional, Komatsu, Naoki, additional, Ikado, Yuta, additional, Takezawa, Yuka, additional, Kage-Nakadai, Eriko, additional, Izutsu, Yumi, additional, Yoshizato, Katsutoshi, additional, Morita, Saho, additional, Tokunaga, Masato, additional, Yukawa, Hiroshi, additional, Baba, Yoshinobu, additional, Teki, Yoshio, additional, and Fujiwara, Masazumi, additional

Published

2023

8. Light-Induced Condensation of Biofunctional Molecules around Targeted Living Cells to Accelerate Cytosolic Delivery

Author

Nakase, Ikuhiko, primary, Miyai, Moe, additional, Noguchi, Kosuke, additional, Tamura, Mamoru, additional, Yamamoto, Yasuyuki, additional, Nishimura, Yushi, additional, Omura, Mika, additional, Hayashi, Kota, additional, Futaki, Shiroh, additional, Tokonami, Shiho, additional, and Iida, Takuya, additional

Published

2022

9. Macroscopically Anisotropic Structures Produced by Light-induced Solvothermal Assembly of Porphyrin Dimers

Author

Yamamoto, Yasuyuki, Nishimura, Yushi, Tokonami, Shiho, Fukui, Norihito, Tanaka, Takayuki, Osuka, Atsuhiro, Yorimitsu, Hideki, and Iida, Takuya

Published

2018

10. Glass-patternable notch-shaped microwave architecture for on-chip spin detection in biological samples

Author

Oshimi, Keisuke, primary, Nishimura, Yushi, additional, Matsubara, Tsutomu, additional, Tanaka, Masuaki, additional, Shikoh, Eiji, additional, Zhao, Li, additional, Zou, Yajuan, additional, Komatsu, Naoki, additional, Ikado, Yuta, additional, Takezawa, Yuka, additional, Kage-Nakadai, Eriko, additional, Izutsu, Yumi, additional, Yoshizato, Katsutoshi, additional, Morita, Saho, additional, Tokunaga, Masato, additional, Yukawa, Hiroshi, additional, Baba, Yoshinobu, additional, Teki, Yoshio, additional, and Fujiwara, Masazumi, additional

Published

2022

11. Real-time nanodiamond thermometry probing in vivo thermogenic responses

Author

Fujiwara, Masazumi, primary, Sun, Simo, additional, Dohms, Alexander, additional, Nishimura, Yushi, additional, Suto, Ken, additional, Takezawa, Yuka, additional, Oshimi, Keisuke, additional, Zhao, Li, additional, Sadzak, Nikola, additional, Umehara, Yumi, additional, Teki, Yoshio, additional, Komatsu, Naoki, additional, Benson, Oliver, additional, Shikano, Yutaka, additional, and Kage-Nakadai, Eriko, additional

Published

2021

12. Wide-field fluorescent nanodiamond spin measurements toward real-time large-area intracellular thermometry

Author

Nishimura, Yushi, primary, Oshimi, Keisuke, additional, Umehara, Yumi, additional, Kumon, Yuka, additional, Miyaji, Kazu, additional, Yukawa, Hiroshi, additional, Shikano, Yutaka, additional, Matsubara, Tsutomu, additional, Fujiwara, Masazumi, additional, Baba, Yoshinobu, additional, and Teki, Yoshio, additional

Published

2021

13. Real-time nanodiamond thermometry probing in vivo thermogenic responses

Author

Fujiwara, Masazumi, primary, Sun, Simo, additional, Dohms, Alexander, additional, Nishimura, Yushi, additional, Suto, Ken, additional, Takezawa, Yuka, additional, Oshimi, Keisuke, additional, Zhao, Li, additional, Sadzak, Nikola, additional, Umehara, Yumi, additional, Teki, Yoshio, additional, Komatsu, Naoki, additional, Benson, Oliver, additional, Shikano, Yutaka, additional, and Kage-Nakadai, Eriko, additional

Published

2020

14. A quantum thermometric sensing and analysis system using fluorescent nanodiamonds for the evaluation of living stem cell functions according to intracellular temperature

Author

Yukawa, Hiroshi, primary, Fujiwara, Masazumi, additional, Kobayashi, Kaori, additional, Kumon, Yuka, additional, Miyaji, Kazu, additional, Nishimura, Yushi, additional, Oshimi, Keisuke, additional, Umehara, Yumi, additional, Teki, Yoshio, additional, Iwasaki, Takayuki, additional, Hatano, Mutsuko, additional, Hashimoto, Hideki, additional, and Baba, Yoshinobu, additional

Published

2020

15. Electrical detection of DNA via nanoparticles under light-induced assembly

Author

Ohashi, Karuna, primary, Yamamoto, Yasuyuki, additional, Tamura, Mamoru, additional, Nishimura, Yushi, additional, Tokonami, Shiho, additional, and Iida, Takuya, additional

Published

2019

16. Removing Non-Size-Dependent Electron Spin Decoherence of Nanodiamond Quantum Sensors by Aerobic Oxidation

Author

Tsukahara, Ryuta, primary, Fujiwara, Masazumi, additional, Sera, Yoshihiko, additional, Nishimura, Yushi, additional, Sugai, Yuko, additional, Jentgens, Christian, additional, Teki, Yoshio, additional, Hashimoto, Hideki, additional, and Shikata, Shinichi, additional

Published

2019

17. Microflow-mediated optical assembly of nanoparticles with femtogram protein via shrinkage of light-induced bubbles

Author

Ueda, Mayu, primary, Nishimura, Yushi, additional, Tamura, Mamoru, additional, Ito, Syoji, additional, Tokonami, Shiho, additional, and Iida, Takuya, additional

Published

2019

18. [4-Iodo-3-(isopropylcarbamoyl)phenoxy]acetic Acid as a Highly Reactive and Easily Separable Catalyst for the Oxidative Cleavage of Tetrahydrofuran-2-methanols to γ-Lactones

Author

Yakura, Takayuki, primary, Fujiwara, Tomoya, additional, Nishi, Hideyuki, additional, Nishimura, Yushi, additional, and Nambu, Hisanori, additional

Published

2018

19. Macroscopically Anisotropic Structures Produced by Light-induced Solvothermal Assembly of Porphyrin Dimers

Author

20705446, 00372566, Yamamoto, Yasuyuki, Nishimura, Yushi, Tokonami, Shiho, Fukui, Norihito, Tanaka, Takayuki, Osuka, Atsuhiro, Yorimitsu, Hideki, Iida, Takuya, 20705446, 00372566, Yamamoto, Yasuyuki, Nishimura, Yushi, Tokonami, Shiho, Fukui, Norihito, Tanaka, Takayuki, Osuka, Atsuhiro, Yorimitsu, Hideki, and Iida, Takuya

Abstract

Porphyrin-based molecules play an important role in natural biological systems such as photosynthetic antennae and haemoglobin. Recent organic chemistry provides artificial porphyrin-based molecules having unique electronic and optical properties, which leads to wide applications in material science. Here, we successfully produced many macroscopically anisotropic structures consisting of porphyrin dimers by light-induced solvothermal assembly with smooth evaporation in a confined volatile organic solvent. Light-induced fluid flow around a bubble on a gold nanofilm generated a sub-millimetre radial assembly of the tens-micrometre-sized petal-like structures. The optical properties of the petal-like structures depend on the relative angle between their growth direction and light polarisation, as confirmed by UV-visible extinction and the Raman scattering spectroscopy analyses, being dramatically different from those of structures obtained by natural drying. Thus, our findings pave the way to the production of structures and polycrystals with unique characteristics from various organic molecules.

Published

2018

20. Macroscopic assembly by optical control of zmol-level DNA hybridization

Author

Iida, Takuya, additional, Nishimura, Yushi, additional, Tamura, Mamoru, additional, Nishida, Keisuke, additional, Ito, Syoji, additional, and Tokonami, Shiho, additional

Published

2017

21. Submillimetre Network Formation by Light-induced Hybridization of Zeptomole-level DNA

Author

Iida, Takuya, primary, Nishimura, Yushi, additional, Tamura, Mamoru, additional, Nishida, Keisuke, additional, Ito, Syoji, additional, and Tokonami, Shiho, additional

Published

2016

22. ChemInform Abstract: Efficient Oxidative Cleavage of Tetrahydrofuran-2-methanols to γ-Lactones by a 2-Iodobenzamide Catalyst in Combination with Oxone®.

Author

Yakura, Takayuki, primary, Horiuchi, Yuto, additional, Nishimura, Yushi, additional, Yamada, Akihiro, additional, Nambu, Hisanori, additional, and Fujiwara, Tomoya, additional

Published

2016

23. Development of a rapid bacterial counting method based on photothermal assembling

Author

Yamamoto, Yasuyuki, primary, Shimizu, Emi, additional, Nishimura, Yushi, additional, Iida, Takuya, additional, and Tokonami, Shiho, additional

Published

2016

24. Efficient Oxidative Cleavage of Tetrahydrofuran-2-methanols to γ-Lactones by a 2-Iodobenzamide Catalyst in Combination with Oxone®

Author

Yakura, Takayuki, primary, Horiuchi, Yuto, additional, Nishimura, Yushi, additional, Yamada, Akihiro, additional, Nambu, Hisanori, additional, and Fujiwara, Tomoya, additional

Published

2016

25. Efficient Oxidative Cleavage of Tetrahydrofuran-2-methanols to γ-Lactones by a 2-Iodobenzamide Catalyst in Combination with Oxone®.

Author

Yakura, Takayuki, Horiuchi, Yuto, Nishimura, Yushi, Yamada, Akihiro, Nambu, Hisanori, and Fujiwara, Tomoya

Subjects

TETRAHYDROFURAN synthesis, CHEMICAL synthesis, METHANOL, OXIDATIVE coupling, LACTONES, ORGANIC synthesis, BENZAMIDE, SUSTAINABLE chemistry

Abstract

An environmentally friendly oxidative cleavage of tetrahydrofuran-2-methanols to the corresponding γ-lactones using a catalytic amount of 2-iodo- N-isopropylbenzamide has been developed. The reaction of various tetrahydrofuran-2-methanols with the catalyst in the presence of Oxone® (2 KHSO5⋅KHSO4⋅K2SO4) as a co-oxidant in DMF at room temperature successfully affords the corresponding lactones in good to high yields, and recovery of the catalyst is readily accomplished using a reductive work-up. This method is notable because it enables the transformation of tetrahydrofuran-2-methanols to γ-lactones under mild conditions without the use of any toxic heavy metals. [ABSTRACT FROM AUTHOR]

Published

2016

26. Macroscopic assembly by optical control of zmol-level DNA hybridization

Author

Omatsu, Takashige, Iida, Takuya, Nishimura, Yushi, Tamura, Mamoru, Nishida, Keisuke, Ito, Syoji, and Tokonami, Shiho

Published

2017

27. A high performance photothermal film with spherical shell-type metallic nanocomposites for solar thermoelectric conversion.

Author

Kosuga, Atsuko, Yamamoto, Yasuyuki, Miyai, Moe, Matsuzawa, Mie, Nishimura, Yushi, Hidaka, Shimpei, Yamamoto, Kohei, Tanaka, Shin, Yamamoto, Yojiro, Tokonami, Shiho, and Iida, Takuya

Published

2015

28. Efficient Oxidative Cleavage of Tetrahydrofuran-2-methanols to γ-Lactones by a 2-Iodobenzamide Catalyst in Combination with Oxone®.

Author

Yakura, Takayuki, Horiuchi, Yuto, Nishimura, Yushi, Yamada, Akihiro, Nambu, Hisanori, and Fujiwara, Tomoya

Subjects

*TETRAHYDROFURAN synthesis, *CHEMICAL synthesis, *METHANOL, *OXIDATIVE coupling, *LACTONES, *ORGANIC synthesis, *BENZAMIDE, *SUSTAINABLE chemistry

Abstract

An environmentally friendly oxidative cleavage of tetrahydrofuran-2-methanols to the corresponding γ-lactones using a catalytic amount of 2-iodo- N-isopropylbenzamide has been developed. The reaction of various tetrahydrofuran-2-methanols with the catalyst in the presence of Oxone® (2 KHSO5⋅KHSO4⋅K2SO4) as a co-oxidant in DMF at room temperature successfully affords the corresponding lactones in good to high yields, and recovery of the catalyst is readily accomplished using a reductive work-up. This method is notable because it enables the transformation of tetrahydrofuran-2-methanols to γ-lactones under mild conditions without the use of any toxic heavy metals. [ABSTRACT FROM AUTHOR]

Published

2016