The development of Zn-Ce hybrid redox flow batteries for energy storage and their continuing challenges

Frank C. Walsh, Carlos Ponce de Leon, Len Berlouis, Georgios Nikiforidis, Luis F. Arenas-Martinez, David Hodgson, David Hall

Research output: Contribution to journalArticle

42 Citations (Scopus)
172 Downloads (Pure)

Abstract

The Zn-Ce flow battery is a recently introduced hybrid redox flow battery (RFB) but has been extensively studied in the laboratory and at the industrial pilot-scale since its introduction in 2005. The cell has the highest open-circuit cell potentials amongst aqueous RFBs, which can exceed 2.4 V at full charge. While original patents were filed in 2004 and 2005, the history of the half-cell reactions stretches back many decades, the Ce(IV)/Ce(III) redox couple being well studied in sulphuric acid as a redox mediator in organic electrosynthesis or in nitric acid for specialist cleaning in the chemical and nuclear industries while zinc deposition and stripping in acid media are well known in hydrometallurgy and electroplating of metals as well as in other batteries using zinc negative electrodes. Methanesulfonic acid electrolytes were introduced in surface finishing several decades ago but their use in flow batteries is only 20 years old. This review considers the thermodynamics and kinetics of the electrode reactions (desired and secondary) in each half-cell, operational variables, materials for cell components, cell design and performance of the zinc-cerium flow battery. Continuing challenges are highlighted and critical research needs for the science and technological development are considered.
Original languageEnglish
Pages (from-to)288–311
Number of pages24
JournalChemPlusChem
Volume80
Issue number2
Early online date13 Nov 2014
DOIs
Publication statusPublished - 5 Feb 2015

Keywords

  • Ce(III)
  • Ce(IV)
  • composite electrodes
  • energy storage
  • porous
  • 3-dimensional carbons
  • Zn deposition
  • cerium
  • electrochemistry

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