Ni3C MXene nanosheets as an efficient binder-less electrocatalyst for oxygen evolution reaction

Gilbert Prince, Aksha and Durai, Lignesh and Badhulika, Sushmee (2022) Ni3C MXene nanosheets as an efficient binder-less electrocatalyst for oxygen evolution reaction. FlatChem, 36. pp. 1-10. ISSN 2452-2627

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Abstract

Low overpotential driven water-splitting is globally proposed as an effective replacement of conventional energy generation devices. However, these applications are extensively reported with noble electrocatalysts which makes them unsuitable for large scale applications. Therefore, it is essential to develop a non-noble, highly stable and low-cost electrocatalyst for oxygen evolution reaction (OER). In this report, we demonstrate solvothermal HF free etching and exfoliation of Ni-MAX to form Ni-MXene nanosheets as an effective electrocatalyst for OER. The as-synthesized Ni-MXene catalyst over nickel foam NiMX/NF electrode exhibits an overpotential of 245 mV at 100 mA/cm2. This performance can be attributed to the increased electrocatalytic activity and enhanced conductivity of the catalyst due to the presence of Ni2+/3+ redox couple and carbon in the Ni-MXene nanosheets, respectively. The catalyst electrode exhibits 83 % of current density retention after 14 h of continuous catalysis. This proves Ni MXene as an ideal candidate for the large scale and industrial applications of OER.

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IITH Creators:
IITH CreatorsORCiD
Badhulika, Sushmeehttps://orcid.org/0000-0003-3237-3031
Item Type: Article
Additional Information: S.B acknowledges financial assistance from Defense Research Development Organization Young Scientist Laboratory- Smart Materials (DRDO DYSL -SM) grant DYSL-SM/CARS-04.
Uncontrolled Keywords: Oxygen evolution reaction,Binderless,Electrocatalyst
Subjects: Electrical Engineering
Divisions: Department of Electrical Engineering
Depositing User: . LibTrainee 2021
Date Deposited: 21 Nov 2022 10:10
Last Modified: 21 Nov 2022 10:10
URI: http://raiithold.iith.ac.in/id/eprint/11351
Publisher URL: http://doi.org/10.1016/j.flatc.2022.100439
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