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Understanding capacity fade in organic redox-flow batteries by combining spectroscopy with statistical inference techniques

Author

Listed:
  • Sanat Vibhas Modak

    (University of Michigan)

  • Wanggang Shen

    (University of Michigan)

  • Siddhant Singh

    (University of Michigan)

  • Dylan Herrera

    (University of Michigan)

  • Fairooz Oudeif

    (University of Michigan)

  • Bryan R. Goldsmith

    (University of Michigan)

  • Xun Huan

    (University of Michigan)

  • David G. Kwabi

    (University of Michigan)

Abstract

Organic redox-active molecules are attractive as redox-flow battery (RFB) reactants because of their low anticipated costs and widely tunable properties. Unfortunately, many lab-scale flow cells experience rapid material degradation (from chemical and electrochemical decay mechanisms) and capacity fade during cycling (>0.1%/day) hindering their commercial deployment. In this work, we combine ultraviolet-visible spectrophotometry and statistical inference techniques to elucidate the Michael attack decay mechanism for 4,5-dihydroxy-1,3-benzenedisulfonic acid (BQDS), a once-promising positive electrolyte reactant for aqueous organic redox-flow batteries. We use Bayesian inference and multivariate curve resolution on the spectroscopic data to derive uncertainty-quantified reaction orders and rates for Michael attack, estimate the spectra of intermediate species and establish a quantitative connection between molecular decay and capacity fade. Our work illustrates the promise of using statistical inference to elucidate chemical and electrochemical mechanisms of capacity fade in organic redox-flow battery together with uncertainty quantification, in flow cell-based electrochemical systems.

Suggested Citation

  • Sanat Vibhas Modak & Wanggang Shen & Siddhant Singh & Dylan Herrera & Fairooz Oudeif & Bryan R. Goldsmith & Xun Huan & David G. Kwabi, 2023. "Understanding capacity fade in organic redox-flow batteries by combining spectroscopy with statistical inference techniques," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39257-z
    DOI: 10.1038/s41467-023-39257-z
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    References listed on IDEAS

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    1. Evan Wenbo Zhao & Tao Liu & Erlendur Jónsson & Jeongjae Lee & Israel Temprano & Rajesh B. Jethwa & Anqi Wang & Holly Smith & Javier Carretero-González & Qilei Song & Clare P. Grey, 2020. "In situ NMR metrology reveals reaction mechanisms in redox flow batteries," Nature, Nature, vol. 579(7798), pages 224-228, March.
    2. David M. Blei & Alp Kucukelbir & Jon D. McAuliffe, 2017. "Variational Inference: A Review for Statisticians," Journal of the American Statistical Association, Taylor & Francis Journals, vol. 112(518), pages 859-877, April.
    3. Aditya M. Limaye & Joy S. Zeng & Adam P. Willard & Karthish Manthiram, 2021. "Bayesian data analysis reveals no preference for cardinal Tafel slopes in CO2 reduction electrocatalysis," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    4. Peter M. Attia & Aditya Grover & Norman Jin & Kristen A. Severson & Todor M. Markov & Yang-Hung Liao & Michael H. Chen & Bryan Cheong & Nicholas Perkins & Zi Yang & Patrick K. Herring & Muratahan Ayko, 2020. "Closed-loop optimization of fast-charging protocols for batteries with machine learning," Nature, Nature, vol. 578(7795), pages 397-402, February.
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