Diogo Moulin Cabral scite author profile

Diogo Moulin Cabral

2Publications

10Citation Statements Received

0Citation Statements Given

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Affiliations

ARC Centre of Excellence for Electromaterials Science, Monash University

Publications

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Iron-Based, Symmetric, Non-Aqueous Redox Flow Battery

Blesch¹,

Cabral²,

Dong³

et al. 2021

Meet. Abstr.

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The redox flow battery (RFB) is a promising technology for the long-duration storage of energy from domestic- to utility-scale. A RFB stores charge in a liquid electrolyte that is charged and discharged in an electrochemical cell reactor. Since storage and reaction site are separated, energy and power of the system can be scaled independently via electrolyte tank and cell stack dimensions. Iron as one of earth’s most abundant elements is an attractive active material, especially in symmetric RFBs using the same electrolyte on both negative and positive side of the battery. One way to realize such a system is by combining iron with redox-active ligands in non-aqueous solvents.[1],[2] We study the iron tris(2,2’-bipyridine) complex which shows a metal-centred reversible oxidation and three ligand-based reductions that are solvent-dependent.[3] The influence of electrolyte composition on charge and discharge reactions as well as on viscosity and conductivity is further investigated. Charge-discharge cycling experiments are carried out in 3-electrode H-cell and flow cell setups. We determine failure modes for the positive side due to electrode kinetics and for the negative side due to solubility changes. We propose improvements to this non-aqueous RFB system based on the selection of electrode materials and cycling conditions. [1] J. Mun et al., J. Electrochem. Soc. 2018, 165, 215-219. [2] C. X. Cammack et al., DaltonTrans . 2021, 50, 858. [3] D. M. Cabral, P. C. Howlett, D. R. MacFarlane, Electrochim. Acta 2016, 220, 347-353.

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Exploring the electrochemical properties of mixed ligand Fe(II) complexes as redox couples

Dong

Cabral

Pringle

et al. 2020

Electrochimica Acta

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