Ryo Matsumoto scite author profile

The liquid desiccant air-conditioning system allows reducing energy consumption compared to the conventional compressor-type air conditioners. In order to develop desiccant materials for air conditioners, we have investigated the dehumidification capability of quaternary ammonium Ionic Liquids (ILs) and the equilibrium water vapor pressure of aqueous solutions of these ammonium salts. Among the seven tested types of ILs, 2-hydroxy- N , N , N -trimethylethan-1-aminium dimethylphosphate ([Ch][DMPO 4 ]) displayed the best dehumidification capability and the lowest equilibrium water vapor pressure. Furthermore, the 80% aqueous solution of [Ch][DMPO 4 ] exhibited a less corrosive effect on four types of metals, i.e., steel (hot dip zinc-aluminum alloy plated steel), copper (C1100P), aluminum (A5052), and stainless steel (SUS: SUS304). It should be noted that this [Ch][DMPO 4 ] is not only non-toxic but also exhibits a stable nature; the aqueous solution produced no odor after storing for over 1 year under ambient conditions.

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Metal–Metal Joining by Unusual Wetting on Surface Fine Crevice Structure Formed by Laser Treatment

Fukuda

Matsukawa

Goto

et al. 2015

Mater. Trans.

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We have investigated metalmetal joining using "unusual wetting", in which a liquid metal spreads by capillary action on a porous metal surface layer formed under atmospheric oxidationreduction. Although oxidationreduction creates an adequate porous structure for "unusual wetting", it is difficult to subject only a specific area to atmospheric oxidationreduction treatment, and region-selective "unusual wetting" and joining are not achieved. In this work, we propose the use of laser, which is able to treat regions selectively, to form a suitable structure for "unusual wetting". A fine asperity structure was observed on the Cu substrate surface after laser treatment. This structure was termed a "surface fine crevice structure". The wettability of the laser-treated Cu substrate by liquid Bi was determined to confirm region-selective "unusual wetting" on the "surface fine crevice structure". We also joined two Cu substrates by "unusual wetting" after creating a "surface fine crevice structure".

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Ryo Matsumoto

Design of ionic liquids as liquid desiccant for an air conditioning system

Fluoroalkyl ether-diluted dimethyl carbonate-based electrolyte solutions for high-voltage operation of LiNi_0.5Co_0.2Mn_0.3O₂ electrodes in lithium ion batteries

Design of quaternary ammonium type-ionic liquids as desiccants for an air-conditioning system

Metal–Metal Joining by Unusual Wetting on Surface Fine Crevice Structure Formed by Laser Treatment

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Ryo Matsumoto

Design of ionic liquids as liquid desiccant for an air conditioning system

Fluoroalkyl ether-diluted dimethyl carbonate-based electrolyte solutions for high-voltage operation of LiNi0.5Co0.2Mn0.3O2 electrodes in lithium ion batteries

Design of quaternary ammonium type-ionic liquids as desiccants for an air-conditioning system

Metal&ndash;Metal Joining by Unusual Wetting on Surface Fine Crevice Structure Formed by Laser Treatment

Contact Info

Product

Resources

About

Fluoroalkyl ether-diluted dimethyl carbonate-based electrolyte solutions for high-voltage operation of LiNi_0.5Co_0.2Mn_0.3O₂ electrodes in lithium ion batteries

Metal–Metal Joining by Unusual Wetting on Surface Fine Crevice Structure Formed by Laser Treatment