Practical Guides to Foot-of-the-Wave Analysis (FOWA) and Catalytic Tafel Plots Through Interactive Web Interface

Soumalya Sinha; Ashwin Chaturvedi; Nilakshi Devi; Pramod Tiwari; Jianbing Jiang

Ayuda

Practical Guides to Foot-of-the-Wave Analysis (FOWA) and Catalytic Tafel Plots Through Interactive Web Interface

Soumalya Sinha ^[1] ; Ashwin Chaturvedi ^[1] ; Nilakshi Devi ^[1] ; Pramod Tiwari ^[1] ; Jianbing Jiang ^[1]
1. [1] University of Cincinnati
  
  University of Cincinnati
  
  City of Cincinnati, Estados Unidos
Localización: Journal of chemical education, ISSN 0021-9584, Vol. 102, Nº 1, 2025, págs. 415-423
Idioma: inglés
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Resumen
- Analysis of cyclic voltammetry data has become essential to gain kinetic insights into electrocatalytic reactions, particularly in the field of small molecule activation. In such studies, the shapes of redox waves of the cyclic voltammograms are informative to distinguish between the catalytic and noncatalytic reactions. Kinetic parameters such as turnover frequencies (TOFs), rate constants, etc. can be extracted from the catalytic current–potential profiles. “Foot-of-the-wave” analysis (FOWA) is one such analysis, proposed by Savéant and Costentin, that provides kinetic information on electrocatalytic reactions. Although FOWA has been explained by many others, performing such analysis in practice, especially for new learners, is often intimidating. We present our recently developed web interface that provides a more flexible, reliable, and user-friendly platform for performing FOWA. We also provide step-by-step guidelines and training modules for studying FOWA that could help learners find the rate constant of the electrocatalytic reaction. Furthermore, our web design also provides opportunities to construct comparative catalytic Tafel plots, which are typically used to compare the TOF-overpotential relationship among the catalysts. We have also put efforts into building a database of the kinetic information for reported molecular electrocatalysts; primarily for the electrochemical carbon dioxide reduction reaction and hydrogen evolution reaction. The database can be further extended to other disciplines in electrocatalysis in the future. Overall, we believe that this web platform would benefit the global electrochemistry community, especially aspiring FOWA learners.