iScience (Oct 2022)

Regio-isomerism directed electrocatalysis for energy efficient zinc-air battery

  • Sanchayita Mukhopadhyay,
  • Mruthyunjayachari Chattanahalli Devendrachari,
  • Sandeep C. Kanade,
  • Chathakudath Prabhakaran Vinod,
  • Harish Makri Nimbegondi Kotresh,
  • Musthafa Ottakam Thotiyl

Journal volume & issue
Vol. 25, no. 10
p. 105179

Abstract

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Summary: We have investigated the role of ligand isomerism in modulating the mechanisms and kinetics associated with charge/discharge chemistry of an aqueous metal-air battery. The dominant electron-withdrawing inductive effect (-I effect) and the diminished electron-withdrawing resonance effect (-R effect) in the α-NO2 isomer noticeably diminishes the rate of oxygen reduction (ORR) and oxygen evolution reactions (OER) on the catalytic Co-center. In their β-counterpart, the cumulative –I and –R effects noticeably enhance the OER and ORR kinetics on the same catalytic Co-center. Therefore, the regioisomerism of the -NO2 functionality amplifies the kinetics of ORR/OER without influencing their mechanistic pathways. When isomeric electrocatalysts are integrated to aid the charge chemistry of a Zn-air battery, the overpotential could be decreased by ∼250 mV with β-NO2 isomer leading to a round-trip efficiency as high as 60%. This work contributes to the design of novel molecular platforms to target the overall round-trip efficiency of energy storage and conversion devices.

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