Ni(IV/II) Redox Couple 2e<sup>- </sup>Reversibility Improvement for Redox Flow Battery

Mazumder, Motiur Rahaman

doi:10.1149/ma2021-0251855mtgabs

Cited by 3 publications

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“…Some Ni and thiocarbamate-based complexes also showed a good possibility in NARFBs. 14,[16][17][18][19][20][21][22][23][24][25] However, to date, none of these complexes has fulfilled all the requirements. Acetyl ferrocene (AcFc) is a oneelectron system, which has a high solubility in MeCN at RT and 0 o C, high cyclic longevity, and can be used as catholyte in NARFBs.…”

Section: Introductionmentioning

confidence: 99%

Temperature-dependent study of AcFc-FeIII(acac)3 redox couple for non-aqueous redox flow battery

Mazumder

Islam

2022

Preprint

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This article describes the temperature dependence electrochemical analysis of acetyl ferrocene (AcFc) and iron(III) acetylacetonate ([Fe(acac)3]) for non-aqueous redox flow batteries. An electrochemical cell consisting of AcFc and ([Fe(acac)3]) as catholyte and anolyte species, respectively, were constructed with a cell voltage of 1.41 V and Coulombic efficiencies >99% for up to 50 total cycles at 25o C (RT) and 0o C. Rotating ring disk electrode (RRDE) experiments suggest that diffusion coefficient decreases as the temperature decreases but overall storing capacity far better than aqueous redox flow battery (ARFBs). The electrochemical kinetic rate constant (k0) of AcFc was found larger than Fe(acac)3 but remains similar at both temperatures. NMR study shows no structural change in changing temperature and after battery experiments.

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Section: Introductionmentioning

confidence: 99%

Temperature-dependent study of AcFc-FeIII(acac)3 redox couple for non-aqueous redox flow battery

Mazumder

Islam

2022

Preprint

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Efficient AcFc‐[Fe^III(acac)₃] Redox Couple for Non‐aqueous Redox Flow Battery at Low Temperature

Mazumder

Islam

Khan³

et al. 2022

Chemistry An Asian Journal

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The temperature dependency of the electrochemical analysis of acetyl ferrocene (AcFc) and iron(III) acetylacetonate ([Fe(acac) 3 ]) has been investigated for non-aqueous redox flow batteries (NARFBs). AcFc and [Fe(acac) 3 ] were utilized as catholyte and anolyte species, respectively, in an electrochemical cell with a cell voltage of 1.41 V and Coulombic efficiencies > 99% for up to 50 total cycles at room temperature (RT, 25 °C). Experiments with a rotating ring disk electrode (RRDE) indicate that the diffusion coefficient reduces with decreasing temperature from 25 °C to 0 °C, yet the overall storage capacity was higher than that of an aqueous redox flow battery (ARFBs). The electrochemical kinetic rate constant (k 0 ) of AcFc was found to be greater than that of [Fe(acac) 3 ]. However, the value of k 0 was not affected by the variable temperature. 1 H NMR investigations reveal that temperature change during battery trials did not occur in any structural modification. The obtained result demonstrates the suitability of this battery at low temperatures.

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Plasmon induced decarboxylation of aromatic carboxylic acids on bipolar electrodeposited Au- and Ag-film monitored by SERS

Yeasmin,

Akteruzzaman,

Motiur Rahaman Mazumder

et al. 2024

Journal of Photochemistry and Photobiology A: Chemistry

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Ni(IV/II) Redox Couple 2e^-Reversibility Improvement for Redox Flow Battery

Cited by 3 publications

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Temperature-dependent study of AcFc-FeIII(acac)3 redox couple for non-aqueous redox flow battery

Temperature-dependent study of AcFc-FeIII(acac)3 redox couple for non-aqueous redox flow battery

Efficient AcFc‐[Fe^III(acac)₃] Redox Couple for Non‐aqueous Redox Flow Battery at Low Temperature

Plasmon induced decarboxylation of aromatic carboxylic acids on bipolar electrodeposited Au- and Ag-film monitored by SERS

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Ni(IV/II) Redox Couple 2e- Reversibility Improvement for Redox Flow Battery

Cited by 3 publications

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Temperature-dependent study of AcFc-FeIII(acac)3 redox couple for non-aqueous redox flow battery

Temperature-dependent study of AcFc-FeIII(acac)3 redox couple for non-aqueous redox flow battery

Efficient AcFc‐[FeIII(acac)3] Redox Couple for Non‐aqueous Redox Flow Battery at Low Temperature

Plasmon induced decarboxylation of aromatic carboxylic acids on bipolar electrodeposited Au- and Ag-film monitored by SERS

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Ni(IV/II) Redox Couple 2e^-Reversibility Improvement for Redox Flow Battery

Efficient AcFc‐[Fe^III(acac)₃] Redox Couple for Non‐aqueous Redox Flow Battery at Low Temperature