Sawako Mori scite author profile

The development of solid electrolytes with Mg-ion conductivity at room temperature is an important issue to achieve all-solid magnesium batteries. We focus on organic ionic crystals with Mg-ion conduction paths in addition to nonflammable and nonvolatile features as an innovative candidate of solid electrolytes with Mg-ion conductivity. Herein, we show the development of novel organic ionic crystals, [N(CH3)4–n (CH2CH3) n ][Mg{N(SO2CF3)2}3] (n = 0 or 2), using analogs of ionic liquids, [N(CH3)4][N(SO2CF3)2] (N1111TFSA) and [N(CH3)2(CH2CH3)2][N(SO2CF3)2] (N1122TFSA), and magnesium salt, Mg{N(SO2CF3)2}2 (Mg(TFSA)2). We also report the crystal structures of the obtained crystals and the high Mg-ion conductivity of 10–4 S cm–1 under mild conditions of 80 °C in the solid state. These results indicate that organic ionic crystals with ion conduction paths have significant potential as safe solid electrolytes and provide insights into developing innovative Mg-ion conductors.

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Kinetic Study on Rapid Reaction of Trinitrobenzenesulfonate with Human Serum Albumin

Kurono

Ichioka

Mori

et al. 1981

Journal of Pharmaceutical Sciences

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Sawako Mori

Phycocyanin prevents hypertension and low serum adiponectin level in a rat model of metabolic syndrome

Organic Crystalline Solid Electrolytes with High Mg-Ion Conductivity Composed of Nonflammable Ionic Liquid Analogs and Mg(TFSA)₂

Kinetic Study on Rapid Reaction of Trinitrobenzenesulfonate with Human Serum Albumin

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Sawako Mori

Phycocyanin prevents hypertension and low serum adiponectin level in a rat model of metabolic syndrome

Organic Crystalline Solid Electrolytes with High Mg-Ion Conductivity Composed of Nonflammable Ionic Liquid Analogs and Mg(TFSA)2

Kinetic Study on Rapid Reaction of Trinitrobenzenesulfonate with Human Serum Albumin

Contact Info

Product

Resources

About

Organic Crystalline Solid Electrolytes with High Mg-Ion Conductivity Composed of Nonflammable Ionic Liquid Analogs and Mg(TFSA)₂