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Toward low cost grid scale energy storage: supercapacitors based on up-cycled industrial mill scale waste

Documentation:: The data was created in word and excell files by Chaopeng in 2014. Mill scale is a waste product from the steel industry available cheaply in tonne quantities and consisting of various iron oxides. The supercapacitive behaviour of mill scale directly from the steel plant, and after various cheap and scalable physical and chemical treatments, has been studied in electrodes formed by spraying mill-scale containing suspensions onto large area current collectors. Half-cell and full cell supercapacitors in cheap, non-toxic aqueous sodium sulphite electrolyte were investigated by cyclic voltammetry, charge-discharge and electrochemical impedance spectroscopy, and delivered a capacitance of up to 92 F g-1 at a scan rate of 5 mV s-1, which was maintained at more than 80% after 5,000 cycles. The approximate costs of commercial and mill scale-based supercapacitors were compared, and showed that while mill scale absolute capacitances were lower than more expensive laboratory synthesised metal oxides, the cost per kilo-watt performance was competitive, especially for very large grid scale storage applications.

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APA Style

Fu, C. (2015). Toward low cost grid scale energy storage: supercapacitors based on up-cycled industrial mill scale waste. University of Oxford.

MLA Style

Fu, C. Toward Low Cost Grid Scale Energy Storage: Supercapacitors Based on up-Cycled Industrial Mill Scale Waste. University of Oxford, 2015.

Chicago Style

Fu, C. 2015. “Toward Low Cost Grid Scale Energy Storage: Supercapacitors Based on up-Cycled Industrial Mill Scale Waste.” University of Oxford.
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Files:: Data.docx

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Data.xlsx

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Authors/Creators

+ Fu, C More by this author/creator

Institution:: University of Oxford
Division:: MPLS
Department:: Materials
Role:: Creator

Contributors

Institution:: University of Oxford
Division:: MPLS
Department:: Materials
Role:: Principal Investigator (PI)

+ Engineering and Physical Sciences Research Council More from this funder

Grant:: EP/K002252/1

Publisher:: University of Oxford
Publication date:: 2015
DOI:: 10.5287/bodleian:st74cq60d

Language:: English
Keywords:: electrochemistry

mill scale

iron oxides

supercapacitor
Subjects:: Energy storage

Supercapacitor
UUID:: uuid:2a21d37c-4828-4a80-bfa4-e3b7c75b3605
Deposit date:: 2015-10-21

Terms of use

Copyright date:: 2015

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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