Tin/vanadium redox electrolyte for battery-like energy storage capacity combined with supercapacitor-like power handling
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Date
2016
Volume
9
Issue
11
Journal
Series Titel
Book Title
Publisher
Cambridge : RSC Publ.
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Abstract
We introduce a high performance hybrid electrochemical energy storage system based on an aqueous electrolyte containing tin sulfate (SnSO4) and vanadyl sulfate (VOSO4) with nanoporous activated carbon. The energy storage mechanism of this system benefits from the unique synergy of concurrent electric double-layer formation, reversible tin redox reactions, and three-step redox reactions of vanadium. The hybrid system showed excellent electrochemical properties such as a promising energy capacity (ca. 75 W h kg−1, 30 W h L−1) and a maximum power of up to 1.5 kW kg−1 (600 W L−1, 250 W m−2), exhibiting capacitor-like galvanostatic cycling stability and a low level of self-discharging rate.
Description
Keywords
Activated carbon, Data storage equipment, Electrolytes, Electrolytic capacitors, Energy storage, Hybrid systems, Redox reactions, Secondary batteries, Sulfur compounds, Supercapacitor, Vanadium compounds, Aqueous electrolyte, Electric double layer, Electrochemical energy storage, Energy storage capacity, Galvanostatic cycling, Nanoporous activated carbons, Redox electrolytes, Self-discharging rate, Tin compounds, activated carbon, electrochemical method, electrolyte, energy budget, porosity, redox potential, sulfate, tin, vanadium
Citation
Lee, J., Krüner, B., Tolosa, A., Sathyamoorthi, S., Kim, D., Choudhury, S., et al. (2016). Tin/vanadium redox electrolyte for battery-like energy storage capacity combined with supercapacitor-like power handling. 9(11). https://doi.org//10.1039/c6ee00712k
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License
CC BY 3.0 Unported