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Novel Bi-Functional Electrocatalysts Based on the Electrochemical Synthesized Bimetallicmetal Organic Frameworks: Towards High Energy Advanced Reversible Zinc–Air Batteries Publisher



Pourfarzad H1, 2 ; Shabaninooshabadi M1, 3 ; Ganjali MR2, 4
Authors
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Authors Affiliations
  1. 1. Department of Analytical Chemistry, University of Kashan, P.O. Box 15875-4413, Kashan, Iran
  2. 2. Center of Excellence in Electrochemistry, Faculty of Chemistry, University of Tehran, P.O. Box 14155-6455, Tehran, Iran
  3. 3. Institute of Nano Science and Nano Technology, University of Kashan, P.O. Box 87317-51167, Kashan, Iran
  4. 4. Endocrinology&Metabolism Research Center, Tehran University of Medical Sciences, P.O. Box 14155-6455, Tehran, Iran

Source: Journal of Power Sources Published:2020


Abstract

Advanced zinc‐air batteries (ZABs) are garnered renewed-attention as one of the most sustainable choices to power energy grids and electric vehicles. Yet, slow ORR (oxygen reduction reaction) and OER (oxygen evolution reaction) kinetics demonstrate a limiting factor for energy conversion performance of high-tech ZABs. Hence the development of effective catalysts for ORR and OER at air electrode to remarkably reduce the polarization loss in metallic-air batteries that seriously prevents the rate capability, operating life and energy performance is very important. We illustrate the powerful ZABs with innovative electrochemical-synthesized benzene-1,3,5 tricarboxylate (BTC)metal–organic frameworks (MOFs) bi-functional oxygen electrocatalysts as compared to routine MOFs. Ni/Fe-BTC-MOF shows superior electrocatalytic activity (0.595 V) with half-wave potential (0.964 V) for ORR and over-potential (1.521@10 mA cm−2) for OER, outperforming commercialRuO2and Pt/C. Ni/Fe-BTC-MOF cathode represents a high open circuit potential (1.55 V), discharge peak power density (182 mW cm2) and a large specific capacity (775 mAh g−1 at 10 mA cm−2) compared to the previous reported. Also Ni/Fe-BTC-MOF shows the excellent lifetimes for 594 h (65.80% round trip efficiency @10 mA cm−2) with 5264 cycles. These encouraging results demonstrate the great potential of these novel MOFs for marketable execution of rechargeable Zn‐air batteries. © 2020 Elsevier B.V.
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