Hydrogen Evolution in Neutral Media by Differential Intermediate Binding at Charge‐Modulated Sites of a Bimetallic Alloy Electrocatalyst

Author:

Maji Mamoni1,Dutta Supriti2,Jena Rohan3,Dey Anupam3,Maji Tapas Kumar3,Pati Swapan K.2,Bhattacharyya Sayan1ORCID

Affiliation:

1. Department of Chemical Sciences and Centre for Advanced Functional Materials Indian Institute of Science Education and Research (IISER) Kolkata, Mohanpur 741246 India

2. Theoretical Sciences Unit, School of Advanced Materials (SAMat) Jawaharlal Nehru Centre for Advanced Scientific Research Jakkur, Bangalore 560064 India

3. Chemistry and Physics of Materials Unit, School of Advanced Materials (SAMat) Jawaharlal Nehru Centre for Advanced Scientific Research Jakkur, Bangalore 560064 India

Abstract

AbstractThe energy barrier to dissociate neutral water has been lowered by the differential intermediate binding on the charge‐modulated metal centers of Co85Mo15 sheets supported on Ni‐foam (NF), where the overpotential for hydrogen evolution reaction (HER) in 1 M phosphate buffer solution (PBS) is only 50±9 mV at −10 mA cm−2. It has a turnover frequency (TOF) of 0.18 s−1, mass activity of 13.2 A g−1 at −200 mV vs. reversible hydrogen electrode (RHE), and produces 16 ml H2 h−1 at −300 mV vs. RHE, more than double that of 20 % Pt/C. The Moδ+ and Coδ− sites adsorb OH*, and H*, respectively, and the electron injection from Co to H−O−H cleaves the O−H bond to form the Mo−OH* intermediate. Operando spectral analyses indicate a weak H‐bonded network for facilitating the H2O*/OH* transport, and a potential‐induced reversal of the charge density from Co to the more electronegative Mo, because of the electron withdrawing Co−H* and Mo−OH* species. Co85Mo15/NF can also drive the complete electrolysis of neutral water at only 1.73 V (10 mA cm−2). In alkaline, and acidic media, it demonstrates a Pt‐like HER activity, accomplishing −1000 mA cm−2 at overpotentials of 161±7, and 175±22 mV, respectively.

Funder

Science and Engineering Research Board

Publisher

Wiley

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