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92 results on '"Kanomata, Kensaku"'

1. A Teflon-based system for applying multidirectional voltages to lipid bilayers as a novel platform for membrane proteins

Author

Komiya, Maki, Kanomata, Kensaku, Yokota, Ryo, Tsuneta, Yusuke, Sato, Madoka, Yamaura, Daichi, Tadaki, Daisuke, Ma, Teng, Yamamoto, Hideaki, Tozawa, Yuzuru, Marti, Albert, Madrenas, Jordi, Kubota, Shigeru, Hirose, Fumihiko, Niwano, Michio, and Hirano-Iwata, Ayumi

Subjects
Physics - Biological Physics, Physics - Applied Physics
Abstract

Artificial bilayer lipid membranes (BLMs), along with patch-clamped membranes, are frequently used for functional analyses of membrane proteins. In both methods, the electric properties of membranes are characterized by only one parameter, namely, transmembrane potential. Here the construction of a novel BLM system was reported, in which membrane voltages can be controlled in a lateral direction in addition to conventional transmembrane direction. A microaperture was fabricated in a Teflon film and Ti electrodes were evaporated around the aperture. BLMs were reproducibly formed in the aperture without being affected by the presence of the electrodes. The application of a lateral voltage induced no significant changes in the electric properties of the BLMs, such as baseline current, transmembrane resistance, and transmembrane capacitance. In contrast, lateral voltages clearly affected the activities of biological ion channels, suggesting that the lateral voltage might be a useful parameter for analyzing channel activities. The present Teflon-based system in which multidirectional voltages can be applied to BLMs represent a promising platform for the analysis of underlying functional properties of membrane proteins., Comment: 13 pages including 5 figures and supporting infomation

Published
2019

2. Large difference between the magnetic properties of Ba and Ti co-doped BiFeO$_3$ bulk materials and their corresponding nanoparticles prepared by ultrasonication

Author

Ahmmad, Bashir, Kanomata, Kensaku, Koike, Kunihiro, Kubota, Shigeru, Kato, Hiroaki, Hirose, Fumihiko, Billah, Areef, Jalil, M. A., and Basith, M. A.

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

The ceramic pellets of the nominal compositions Bi$_{0.7}$Ba$_{0.3}$Fe$_{1-x}$Ti$_x$O$_3$ (x = 0.00-0.20) were prepared initially by standard solid state reaction technique. The pellets were then ground into micrometer-sized powders and mixed with isopropanol in an ultrasonic bath to prepare nanoparticles. The X-ray diffraction patterns demonstrate the presence of a significant number of impurity phases in bulk powder materials. Interestingly, these secondary phases were completely removed due to the sonication of these bulk powder materials for 60 minutes. The field and temperature dependent magnetization measurements exhibited significant difference between the magnetic properties of the bulk materials and their corresponding nanoparticles. We anticipate that the large difference in the magnetic behavior may be associated with the presence and absence of secondary impurity phases in the bulk materials and their corresponding nanoparticles, respectively. The leakage current density of the bulk materials was also found to suppress in the ultrasonically prepared nanoparticles compared to that of bulk counterparts., Comment: 9 pages in Journal of Physics D: Applied Physics, 2016

Published
2016
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9. Optimized design of moth eye antireflection structure for organic photovoltaics

Author

Kubota, Shigeru, Kanomata, Kensaku, Ahmmad, Bashir, Mizuno, Jun, and Hirose, Fumihiko

Subjects
Algorithms -- Models -- Analysis, Moths -- Models -- Analysis -- Mechanical properties, Optimization theory -- Models -- Analysis, Algorithm, Metals, metalworking and machinery industries
Abstract

Abstract To improve the power conversion efficacy of organic photovoltaics (OPVs), it is required to design antireflection structures that could realize efficient and broadband light trapping. In this article, we [...]

Published
2016
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13. Lateral voltage as a new input for artificial lipid bilayer systems

Author

Ma, Teng, primary, Sato, Madoka, additional, Komiya, Maki, additional, Kanomata, Kensaku, additional, Watanabe, Takaya, additional, Feng, Xingyao, additional, Miyata, Ryusuke, additional, Tadaki, Daisuke, additional, Hirose, Fumihiko, additional, Tozawa, Yuzuru, additional, and Hirano-Iwata, Ayumi, additional

Published
2022
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22. Modulation of Photoinduced Transmembrane Currents in a Fullerene-Doped Freestanding Lipid Bilayer by a Lateral Bias

Author

Ma, Teng, primary, Feng, Xingyao, additional, Ohori, Takeshi, additional, Miyata, Ryusuke, additional, Tadaki, Daisuke, additional, Yamaura, Daichi, additional, Deguchi, Takafumi, additional, Komiya, Maki, additional, Kanomata, Kensaku, additional, Hirose, Fumihiko, additional, Niwano, Michio, additional, and Hirano-Iwata, Ayumi, additional

Published
2019
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29. Enhanced Photocatalytic Hydrogen Production on TiO2 by Using Carbon Materials

Author

Ahmmad, Bashir, Kanomata, Kensaku, and Hirose, Fumihiko

Abstract

The effect of carbon materials on TiO2 for the photocatalytic hydrogen gas production from water / alcohol mixtures was investigated. Single walled carbon nanotubes (SWNTs), multi walled carbon nanotubes (MWNTs), carbon nanofiber (CNF), fullerene (FLN), graphite (GP), and graphite silica (GS) were used as co-catalysts by directly mixing with TiO2. Drastic synergy effects were found with increase in the amount of hydrogen gas by a factor of ca. 150 and 100 for SWNTs and GS with TiO2, respectively. Moreover, the increment factor of hydrogen production reached to 180, when the mixture of SWNTs and TiO2 were smashed in an agate mortar before photocatalytic reactions. The order of H2 gas production for these carbon materials was SWNTs > GS >> MWNTs > FLN > CNF > GP. To maximize the hydrogen production from SWNTs/TiO2, various parameters of experimental condition were changed. Also, a comparison between Pt/TiO2, SWNTs/TiO2 and GS/TiO2 was made for the amount of H2 gas production. Finally, the recyclability of SWNTs/TiO2or GS/TiO2 was tested.

Published
2014
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36. ZnO/TiO core-shell photoelectrodes for dye-sensitized solar cells by screen printing and room temperature ALD.

Author

Sun, He, Kurotaki, Hayato, Kanomata, Kensaku, Hirose, Fumihiko, White, Matthew, and Yoshida, Tsukasa

Subjects
ZINC oxide, ELECTRODES, TITANIUM dioxide, DYE-sensitized solar cells, LOW temperatures, SCREEN process printing
Abstract

Mesoporous photoelectrodes for dye-sensitized solar cells (DSSCs) in a ZnO/TiO core-shell structure have been fabricated at low temperature by combination of screen printing of ZnO nanoparticles and room temperature atomic layer deposition (ALD) of TiO. ALD nicely achieved a uniform coating of the individual ZnO particles with a thin skin of TiO of uniform thickness. The overall mesoporous structure was unchanged, so that a high surface area for dye adsorption and pores for penetration of the electrolyte solution were preserved. DSSCs employing the core-shell electrode sensitized with D149 indoline dye achieved a higher open circuit voltage ( V ) than that with ZnO, but accompanied with a decrease of short circuit photocurrent density ( J ) due to decreased efficiency of electron injection. Increase of the recombination resistance to extend the electron lifetime by the TiO shell has been confirmed by electrochemical impedance spectroscopy (EIS). X-ray diffraction analysis has revealed that the ALD TiO is amorphous and can only be converted to crystalline anatase TiO by annealing at 450 °C. The crystallization recovered current but lost the advantage of the voltage increase. EIS has indicated a high trap density introduced by the amorphous ALD TiO, which could be reduced by crystallization, but accompanied with an increased rate of recombination. [ABSTRACT FROM AUTHOR]

Published
2018
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46. Room temperature atomic layer deposition of TiO2 on gold nanoparticles.

Author

Kikuchi, Ko, Miura, Masanori, Kanomata, Kensaku, Ahmmad, Bashir, Shigeru Kubota, and Fumihiko Hirose

Subjects
ATOMIC layer deposition, TITANIUM dioxide, GOLD nanoparticles, CRYSTAL growth, THICKNESS measurement, ELECTROSTATICS
Abstract

The authors developed a room temperature atomic layer deposition (ALD) system that can deposit TiO2 on gold nanoparticles by using tetrakis(dimethylamino)titanium and plasma-excited humidified argon. The growth per cycle of TiO2 was measured to be 0.25 nm/cycle on a monitored Si sample. For applying the nanoparticle coating, the source material, i.e., gold particles, is electrostatically attached to the susceptor in the ALD system to avoid their gas transport. These particles are then mixed by a rotating scraper during the ALD process. This system allows a conformal deposition of TiO2 without the aggregation of nanoparticles. The thickness of TiO2 for shell coating is controlled by counting the number of ALD cycles. The deposition of TiO2 coating with a nanometer scale thickness on the gold nanoparticle is demonstrated in this paper. [ABSTRACT FROM AUTHOR]

Published
2017
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