M. Kazacos scite author profile

The electrolyte is one of the most important components of the vanadium redox flow battery and its properties will affect cell performance and behavior in addition to the overall battery cost. Vanadium exists in several oxidation states with significantly different half-cell potentials that can produce practical cell voltages. It is thus possible to use the same element in both half-cells and thereby eliminate problems of cross-contamination inherent in all other flow battery chemistries. Electrolyte properties vary with supporting electrolyte composition, state-of-charge, and temperature and this will impact on the characteristics, behavior, and performance of the vanadium battery in practical applications. This Review provides a broad overview of the physical properties and characteristics of the vanadium battery electrolyte under different conditions, together with a description of some of the processing methods that have been developed to produce vanadium electrolytes for vanadium redox flow battery applications.

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State of charge monitoring methods for vanadium redox flow battery control

Skyllas‐Kazacos

Kazacos

2011

Journal of Power Sources

295

190

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Vanadium redox cell electrolyte optimization studies

Kazacos¹,

Cheng²,

1990

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Water transport study across commercial ion exchange membranes in the vanadium redox flow battery

Mohammadi

Chieng²,

Kazacos³

1997

Journal of Membrane Science

159

114

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Characteristics and performance of 1 kW UNSW vanadium redox battery

Skyllas‐Kazacos

Kasherman

Hong

et al. 1991

Journal of Power Sources

201

105

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M. Kazacos

Vanadium Electrolyte Studies for the Vanadium Redox Battery—A Review

State of charge monitoring methods for vanadium redox flow battery control

Vanadium redox cell electrolyte optimization studies

Water transport study across commercial ion exchange membranes in the vanadium redox flow battery

Characteristics and performance of 1 kW UNSW vanadium redox battery

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