Shota Inoguchi scite author profile

Shota Inoguchi

3Publications

6Citation Statements Received

147Citation Statements Given

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141

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Kyoto University

Publications

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Basal-Plane Orientation of Zn Electrodeposits Induced by Loss of Free Water in Concentrated Aqueous Solutions

Inoguchi

Kitada

Fukami

et al. 2020

J. Electrochem. Soc.

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Concentrated aqueous solutions attract considerable attention because water electrolysis can be suppressed due to a decrease in the amount of free water. The present study focuses on electrodeposition behaviors of metallic zinc (Zn) using concentrated aqueous solutions containing bis(trifluoromethylsulfonyl)amide (Tf2N–) anions. An increase in Tf2N– concentration significantly enhances water-anion interactions, giving characteristic infrared spectra for the breakdown of the hydrogen-bonding networks of water clusters, i.e. loss of free water. For the Tf2N– system Zn electrodeposits with the preferred orientation of hcp basal plane was observed, while, for the SO4 2– system with the presence of the hydrogen-bonding networks, preferred orientation of basal plane was not observed. The preferred orientation of basal plane is not attributed to the adsorption of Tf2N– anions on the electrode, proved by the use of mixed Zn(Tf2N)2-ZnSO4 concentrated solutions. The loss of free water in the concentrated Zn(Tf2N)2 solutions will suppress hydrogen adsorption at the cathode to promote surface diffusion of intermediate Zn+ adions and growth of Zn crystals. Consequently, the promotions and the easier growth of Zn basal planes with the lowest interfacial free energy will enhance the horizontal growth of Zn basal planes.

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Vapor Permeation of Volatile Organic Compounds and Water across Polydimethylsiloxane-Carbon Nanofiber Composite Membranes

Kiyono¹,

Aoyama²,

Sekiguchi³

et al. 2014

KOBUNSHI RONBUNSHU

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Reactivity of Zinc Cations under Spontaneous Accumulation of Hydrophobic Coexisting Cations in Hydrophobic Nanoporous Silicon

et al. 2020

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The ion enrichment behavior due to surface-induced phase separation and the concomitant phase transition of electrolyte solutions between a liquid and a solid confined within nanopores of porous silicon is examined using concentrated aqueous solutions. We performed open-circuit potential measurements and differential scanning calorimetry (DSC) while varying the concentration of aqueous tetraethylammonium chloride (TEACl) solution. Open-circuit potential measurements revealed that the local OH – concentration within the nanopores increases as the bulk TEACl concentration increases. DSC measurements indicated that TEA + cations are enriched within the nanopores and an extremely high concentration of TEA + remarkably increases the local OH – concentration. This increase in the local pH should realize the selective precipitation of metal hydroxides within the nanopores. However, such precipitation was not observed in our investigations using aqueous solutions containing zinc cations. The experimental results suggest that ionic species within the nanopores of porous silicon are more stable than those in a bulk solution due to the formation of ion pairs with enhanced stability as well as kinetic factors that increase the activation energy for precipitation.

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Shota Inoguchi

Basal-Plane Orientation of Zn Electrodeposits Induced by Loss of Free Water in Concentrated Aqueous Solutions

Vapor Permeation of Volatile Organic Compounds and Water across Polydimethylsiloxane-Carbon Nanofiber Composite Membranes

Reactivity of Zinc Cations under Spontaneous Accumulation of Hydrophobic Coexisting Cations in Hydrophobic Nanoporous Silicon

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