Tailoring the Interfacial Active Center of MnSxO2-x/MnCo2S4 Heterostructure to Boost the Performance for Oxygen Evolution Reaction and Zn-Air Batteries in Neutral Electrolyte

Published in Chemical Engineering Journal, 2021

Recommended citation: Kai Wang, Zheng Wang, Yonggang Liu, Jiapeng Liu, Zhiming Cui, Xiaofeng Zhang, Francesco Ciucci*, and Zhenghua Tang*. (2021). "Tailoring the Interfacial Active Center of MnSxO2-x/MnCo2S4 Heterostructure to Boost the Performance for Oxygen Evolution Reaction and Zn-Air Batteries in Neutral Electrolyte." Chemical Engineering Journal, 427, 131966. https://www.sciencedirect.com/science/article/pii/S1385894721035464

Tailoring interfaces in heterostructured electrocatalysts is an optimal strategy for improving the electrocatalytic performance, yet determining which active center to adjust is still extremely challenging. Herein, we report a facile approach to construct a novel heterostructured electrocatalyst of MnSxO2−x/MnCo2S4. The density and structure of the active centers were fine-tuned by controlling the S-O atomic ratio on the surface of MnSxO2−x. Consequently, the optimized MnS0.10O1.90/MnCo2S4 sample had excellent oxygen evolution reaction performance, with overpotential of 367 mV @ 50 mA cm−2 in 1.0 M KOH. More impressively, in 0.2 M phosphate buffer solution, the overpotential @ 10 mA cm−2 is only 414 mV. Furthermore, as the air–cathode catalyst in neutral zinc-air batteries, MnS0.10O1.90/MnCo2S4 exhibited excellent stability with the round-trip efficiency decaying by only 3.8% at 10 mA cm−2 after 140 h. Theoretical calculations revealed that Mn-Co site has the suitable binding affinity to the oxygen-containing intermediates, neither too weak (Mn site) nor too strong (Co-Co site), while MnCo2S4 endows the oxidized CoMnO active species a tensile strain that decreases the overpotential. This study opens an avenue for developing high-performance and durable heterostructure electrocatalysts toward OER, metal-air batteries in neural electrolytes and beyond.

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Recommended citation: Wang, K., Wang, Z., Liu, Y., Liu, J., Cui, Z., Zhang, X., Ciucci, F. and Tang, Z., 2021. Tailoring the Interfacial Active Center of MnSxO2-x/MnCo2S4 Heterostructure to Boost the Performance for Oxygen Evolution Reaction and Zn-Air Batteries in Neutral Electrolyte. Chemical Engineering Journal427, 131966.