Search Results - "Kiyobayashi, T."

Conductivity, viscosity and density of MClO4 (M = Li and Na) dissolved in propylene carbonate and γ-butyrolactone at high concentrations by Kuratani, K., Uemura, N., Senoh, H., Takeshita, H.T., Kiyobayashi, T.

“…The solution density, viscosity and conductivity of MClO4 (M = Li and Na) solutions in propylene carbonate and γ-butyrolactone are measured at the…”
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Influence of the preparation methods on the electrochemical properties and structural changes of alpha-sodium iron oxide as a positive electrode material for rechargeable sodium batteries by Kataoka, R., Kuratani, K., Kitta, M., Takeichi, N., Kiyobayashi, T., Tabuchi, M.

“…A potential positive electrode material, α-NaFeO2, can be viewed one of the base material for rechargeable Na batteries. In this study, we found that its…”
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Hydrogen storage in carbon nanostructures by Züttel, A., Sudan, P., Mauron, Ph, Kiyobayashi, T., Emmenegger, Ch, Schlapbach, L.

“…Carbon nanotubes have been known for more than 10 years. It is a challenge to fill their unique tubular structure with metals and gases. Especially, the…”
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Cyclic properties and ammonia by-product emission of Li/Mg–N–H hydrogen storage material by Ikeda, S., Tokoyoda, K., Kiyobayashi, T., Kuriyama, N.

“…A magnesium amide-based hydrogen storage material, 3 Mg(NH 2) 2 + 8LiH, was subjected to cycling tests of dehydrogenation and hydrogenation, in which the…”
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Capacitive behavior of amorphous and crystalline RuO2 composite electrode fabricated by spark plasma sintering technique by BHARALI, P, KURATANI, K, TAKEUCHI, T, KIYOBAYASHI, T, KURIYAMA, N

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Binderless fabrication of amorphous RuO2 electrode for electrochemical capacitor using spark plasma sintering technique by KURATANI, K, TANAKA, H, TAKEUCHI, T, TAKEICHI, N, KIYOBAYASHI, T, KURIYAMA, N

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Hazard assessment of complex hydrides as hydrogen storage materials by Tanaka, H., Tokoyoda, K., Matsumoto, M., Suzuki, Y., Kiyobayashi, T., Kuriyama, N.

“…Hydrogen storage materials containing NaAlH 4, LiNH 2, Mg(NH 2) 2, LiH and LiBH 4 were subjected to standardized safety tests in order to assess the potential…”
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Ca7Ge-type hydride Mg6VNaxHy (0≤x≤1): High pressure synthesis, synchrotron X-ray analysis and hydrogen storage properties by Takeichi, N., Yan, J., Yang, X., Shida, K., Tanaka, H., Kiyobayashi, T., Kuriyama, N., Sakai, T.

“…► Mg6VNaxHy hydride was synthesized under high pressure H2 (8GPa). ► Synchrotron X-ray diffraction and Rietveld crystallographic structure analysis. ►…”
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Simultaneous determination of ammonia emission and hydrogen capacity variation during the cyclic testing for LiNH2-LiH hydrogen storage system by IKEDA, Shingo, KURIYAMA, Nobuhiro, KIYOBAYASHI, Tetsu

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Hydrogen sorption by carbon nanotubes and other carbon nanostructures by Züttel, A, Nützenadel, Ch, Sudan, P, Mauron, Ph, Emmenegger, Ch, Rentsch, S, Schlapbach, L, Weidenkaff, A, Kiyobayashi, T

“…We have analyzed the hydrogen storage capability of a set of carbon samples including a variety of carbon nanotubes, in the gas phase and in the electrolyte as…”
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Biological impact tests on complex hydrides used as hydrogen storage materials by Tanaka, H., Tokoyoda, K., Matsumoto, M., Kiyobayashi, T., Kuriyama, N.

“…The mutagenicity of a series of the light element hydrides (containing NaAlH 4, Mg(NH 2) 2, LiBH 4, etc.) was examined by evaluating the frequency of mutation…”
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Air–metal hydride secondary battery with long cycle life by Chartouni, D, Kuriyama, N, Kiyobayashi, T, Chen, J

“…We report the evaluation of a novel air–metal hydride rechargeable battery. A copper plated MmNi 3.5Co 0.7Al 0.7Mn 0.1 alloy was used as the active material in…”
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Metal hydride fuel cell with intrinsic capacity by Chartouni, D., Kuriyama, N., Kiyobayashi, T., Chen, J.

“…An alkaline metal hydride (MH) fuel cell with built-in energy storage was constructed and its performance was examined. The cell employed a bifunctional…”
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Effect of Ball-Milling on the Properties of Mg2Cu Hydrogen Storage Alloy by Tanaka, M. X., Takeichi, N., Takeshita, H. T., Kiyobayashi, T.

“…We investigated by differential scanning calorimetry the effect of ball milling on the hydrogenation properties of Mg2Cu, a hydrogen storage alloy, prepared by…”
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Hydrogenation of nanostructured graphite by mechanical grinding under hydrogen atmosphere by Kiyobayashi, T., Komiyama, K., Takeichi, N., Tanaka, H., Senoh, H., Takeshita, H.T., Kuriyama, N.

“…Orimo et al. reported that nanostructured graphite, prepared by using the mechanical grinding under hydrogen atmosphere, contained more than 7 mass% of…”
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Studies of P-C isotherms in RNi5-H (R: La, Pr, Nd, Sm, Gd, Tb and Dy) systems by Senoh, H, Takeichi, N, Kiyobayashi, T, Tanaka, H, Takeshita, H T, Oishi, T, Kuriyama, N

“…We have investigated the hydrogenation and dehydrogenation properties of binary RNi5 (R: La, Pr, Nd, Sm, Gd, Tb and Dy) intermetallic compounds in the pressure…”
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Systematic investigation on hydrogen storage properties of RNi5 (R: rare earth) intermetallic compounds with multi-plateau by Senoh, H, Takeichi, N, Takeshita, H.T, Tanaka, H, Kiyobayashi, T, Kuriyama, N

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Hydrogenation properties and structure of Ti–Cr alloy prepared by mechanical grinding by Takeichi, N., Senoh, H., Takeshita, H.T., Oishi, T., Tanaka, H., Kiyobayashi, T., Kuriyama, N.

“…The C14 intermetallic TiCr 1.9 compound was prepared by arc melting, annealed at 1623 K in helium atmosphere for 8 h, and then quenched in water. The X-ray…”
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Synthesis of CaNi1-xPdx (0.1≤x≤1) alloys and hydrogenation properties of CaPd by TAKESHITA, H. T, SAKAMOTO, Y, TAKEICHI, N, KIYOBAYASHI, T, TANAKA, H, KURIYAMA, N, SENOH, H

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High pressure experiments on the Mg2Ni and Mg2NiH4–H systems by Chen, J, Sakai, T, Kitamura, N, Tanaka, H, Kiyobayashi, T, Takeshita, H.T, Kuriyama, N

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