T. Shinohara scite author profile

High-energy-density and low-cost calcium (Ca) batteries have been proposed as ‘beyond-Li-ion’ electrochemical energy storage devices. However, they have seen limited progress due to challenges associated with developing electrolytes showing reductive/oxidative stabilities and high ionic conductivities. This paper describes a calcium monocarborane cluster salt in a mixed solvent as a Ca-battery electrolyte with high anodic stability (up to 4 V vs. Ca2+/Ca), high ionic conductivity (4 mS cm−1), and high Coulombic efficiency for Ca plating/stripping at room temperature. The developed electrolyte is a promising candidate for use in room-temperature rechargeable Ca batteries.

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High performance 65 nm SOI technology with dual stress liner and low capacitance SRAM cell

Leobandung

Nayakama²,

Mocuta

et al.

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Ion energy, ion flux, and ion species effects on crystallographic and electrical properties of sputter-deposited Ta thin films

Ino

Shinohara

Ushiki

et al. 1997

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Effect of arc suppression on the physical properties of low temperature dc magnetron sputtered tantalum thin films J.The effects of ion bombardment conditions on the crystallographic and electrical properties of tantalum thin films grown on SiO 2 and Si have been systematically investigated in Ta thin film formation process employing low-energy (Ͻ100 eV͒ inert-gas ion bombardment on a growing film surface. It is demonstrated that the properties of Ta films are strongly dependent upon ion energy and ion flux as well as substrate materials. The bcc-Ta can be formed on SiO 2 by controlling impinging ion energy and normalized ion flux defined as the ratio of ion flux to Ta flux ranging lower than 20 eV and higher than 13, respectively, for Ar plasma. Based on these results, low-resistivity bcc-Ta thin films ͑14.8 ⍀ cm at 300 K͒ have been successfully formed. It is also experimentally shown that the irradiation by ions with different mass numbers has different effects on growing film properties, even if the energy or momentum of the ions is the same. When normalized ion flux is 26, bcc-Ta films can be grown on Si at ion energy lower than 30 eV for Ar ions and at ion energy ranging from 30 to 90 eV for Xe ions. The results also suggest that there are two cases where the phase transition from bcc to ␤ occurs. One is caused by defects induced by the recoil implantation of Ta atoms due to the excessive higher-energy ion bombardment and the other is induced by defects due to insufficient total energy input to a growing film surface by ion irradiation and resulting poor film quality.

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Deformation analysis of surface flaws in stainless steel wire drawing

Shinohara

Yoshida

2005

Journal of Materials Processing Technology

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Influence of Flaws of Wire Rod Surface, Inclusions and Voids on Wire Breaks in Superfine Wire Drawing

Yoshida

Norasethasopon²,

Shinohara

et al. 2003

JSME Int. J., Ser. A

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T. Shinohara

Monocarborane cluster as a stable fluorine-free calcium battery electrolyte

High performance 65 nm SOI technology with dual stress liner and low capacitance SRAM cell

Ion energy, ion flux, and ion species effects on crystallographic and electrical properties of sputter-deposited Ta thin films

Deformation analysis of surface flaws in stainless steel wire drawing

Influence of Flaws of Wire Rod Surface, Inclusions and Voids on Wire Breaks in Superfine Wire Drawing

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