T. Shigematsu scite author profile

In this paper we report a novel redox flow battery using a titanium and manganese mixed solution as both positive and negative electrolytes. Ti(IV) ions existing in positive electrolyte suppress the Mn(III) disproportionation reaction, as well as particle growth of Mn dioxides. The energy density of 23.5 kWh m-3 was obtained in a single cell test, which is comparable to that of all-vanadium RF battery. Mn dioxide nanoparticles contribute to excellent flowablity and electro-active performance. In the cycling stability test, the performance is stable over more than 40 cycles. It is considered that the same electrolyte in both half-cells prevent mixing of electro-active species.

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Effect of Ti(IV) Ion on Mn(III) Stability in Ti/Mn Electrolyte for Redox Flow Battery

Kaku

Dong

Hanafusa

et al. 2016

ECS Trans.

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The mixed electrolyte of titanium and manganese is one of the promising candidates as low-cost electrolytes for redox flow batteries. In this study, the effect of Ti4+ ion in the positive electrolyte was examined in detail. With an increase of Ti4+ ion concentration, the formation reaction of MnO2 particle was slowed down significantly, which means the stability of Mn3+ ion is enhanced. Moreover, the particle size of MnO2 precipitate became smaller in electrolytes containing certain amount of Ti4+ ion. These MnO2 particles were small enough to be flowed in the electrolyte and to be reduced to Mn2+ ion again. Ti4+ ion also affected the crystal structures of MnO2, limiting to gamma-MnO2 which is assumed to be reactive. In cyclic voltammetry study, the higher Ti4+ ion concentration was, the better reversibility of Mn redox reaction was observed. The ion interaction between Ti4+ and Mn3+ was confirmed by UV-visible spectroscopy.

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Evaluation study about Redox flow battery response and its modeling

et al. 2002

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Applications of a vanadium redox-flow battery to maintain power quality

Shigematsu

Kumamoto

Deguchi

et al.

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T. Shigematsu

A Novel Titanium/Manganese Redox Flow Battery

Effect of Ti(IV) Ion on Mn(III) Stability in Ti/Mn Electrolyte for Redox Flow Battery

Evaluation study about Redox flow battery response and its modeling

Applications of a vanadium redox-flow battery to maintain power quality

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