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Role of electrolytes in vanadium-cerium flow batteries.

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Role of electrolytes in vanadium-cerium flow batteries. / Girault, Hubert H.; Amstutz, Veronique; Toghill, Kathryn E. et al.
2014. ENFL-264.

Research output: Contribution to conference - Without ISBN/ISSN Other

Harvard

Girault, HH, Amstutz, V, Toghill, KE & Peljo, P 2014, 'Role of electrolytes in vanadium-cerium flow batteries.', pp. ENFL-264.

APA

Girault, H. H., Amstutz, V., Toghill, K. E., & Peljo, P. (2014). Role of electrolytes in vanadium-cerium flow batteries.. ENFL-264.

Vancouver

Girault HH, Amstutz V, Toghill KE, Peljo P. Role of electrolytes in vanadium-cerium flow batteries.. 2014.

Author

Girault, Hubert H. ; Amstutz, Veronique ; Toghill, Kathryn E. et al. / Role of electrolytes in vanadium-cerium flow batteries.

Bibtex

@conference{93becfff46c44bea929d1a97be2a21a0,
title = "Role of electrolytes in vanadium-cerium flow batteries.",
abstract = "A Vanadium-Cerium redox flow battery has been developed with a secondary circuit where the vanadium (II) can be chem. oxidised to produce hydrogen and where the cerium (IV) can be chem. reduced to produce oxygen. This redox flow battery can be used as an indirect water electrolyzer even when the battery is under elec. charging. This battery has been designed to help to regulate the grid in Switzerland and to absorb the load of so-called junk electricity, i.e. The electricity overprodn. from renewable sources. In such a battery, the electrolytes play a key role to optimize the energy efficiency. Indeed, the redox potential of cerium (IV) in particular can be tuned by optimizing the electrolyte compn. [on SciFinder(R)]",
author = "Girault, {Hubert H.} and Veronique Amstutz and Toghill, {Kathryn E.} and Pekka. Peljo",
note = "M1 - Copyright (C) 2014 American Chemical Society (ACS). All Rights Reserved. CAPLUS AN 2014:381585(Conference; Meeting Abstract; Computer Optical Disk)",
year = "2014",
language = "English",
pages = "ENFL--264",

}

RIS

TY - CONF

T1 - Role of electrolytes in vanadium-cerium flow batteries.

AU - Girault, Hubert H.

AU - Amstutz, Veronique

AU - Toghill, Kathryn E.

AU - Peljo, Pekka.

N1 - M1 - Copyright (C) 2014 American Chemical Society (ACS). All Rights Reserved. CAPLUS AN 2014:381585(Conference; Meeting Abstract; Computer Optical Disk)

PY - 2014

Y1 - 2014

N2 - A Vanadium-Cerium redox flow battery has been developed with a secondary circuit where the vanadium (II) can be chem. oxidised to produce hydrogen and where the cerium (IV) can be chem. reduced to produce oxygen. This redox flow battery can be used as an indirect water electrolyzer even when the battery is under elec. charging. This battery has been designed to help to regulate the grid in Switzerland and to absorb the load of so-called junk electricity, i.e. The electricity overprodn. from renewable sources. In such a battery, the electrolytes play a key role to optimize the energy efficiency. Indeed, the redox potential of cerium (IV) in particular can be tuned by optimizing the electrolyte compn. [on SciFinder(R)]

AB - A Vanadium-Cerium redox flow battery has been developed with a secondary circuit where the vanadium (II) can be chem. oxidised to produce hydrogen and where the cerium (IV) can be chem. reduced to produce oxygen. This redox flow battery can be used as an indirect water electrolyzer even when the battery is under elec. charging. This battery has been designed to help to regulate the grid in Switzerland and to absorb the load of so-called junk electricity, i.e. The electricity overprodn. from renewable sources. In such a battery, the electrolytes play a key role to optimize the energy efficiency. Indeed, the redox potential of cerium (IV) in particular can be tuned by optimizing the electrolyte compn. [on SciFinder(R)]

M3 - Other

SP - ENFL-264

ER -