A Janus cerium-doped bismuth oxide electrocatalyst for complete water splitting

Green hydrogen production from water electrolysis typically requires a set of two catalysts for triggering both hydrogen and oxygen production. Here, we report cerium-doped α-Bi2O3 nanosheets covered with reduced graphene oxide capable of both electrocatalytic oxygen evolution reaction and hydrogen...

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Published in:Cell reports physical science 2022-11, Vol.3 (11), p.101106, Article 101106
Main Authors: Aziz, S.K. Tarik, Ummekar, Mayuri, Karajagi, Imran, Riyajuddin, S.K., Siddhartha, K.V.R., Saini, Abhishek, Potbhare, Ajay, Chaudhary, Ratiram G., Vishal, Vikram, Ghosh, Prakash C., Dutta, Arnab
Format: Article
Language:English
Subjects:
alkaline water electrolysis
H2 evolution reaction electrocatalyst
HER
Janus catalyst
O2 evolution reaction electrocatalyst
OER
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Summary:Green hydrogen production from water electrolysis typically requires a set of two catalysts for triggering both hydrogen and oxygen production. Here, we report cerium-doped α-Bi2O3 nanosheets covered with reduced graphene oxide capable of both electrocatalytic oxygen evolution reaction and hydrogen evolution reaction in the same alkaline media. This rationally designed material achieves oxygen evolution and hydrogen production current density of 10 mA cm−2 at relatively low overpotentials of 0.245 and 0.334 V, respectively, while retaining its reactivity over 24 h with minimal loss of Faradaic efficiency. A two-electrode setup is devised by immobilizing this robust and dual-active electrocatalyst on commercially available stainless steel (SS) mesh, which operates at a relatively low cell voltage (1.78 V). The electrocatalytic reactivity remains intact even after cross-polarization. Hence this Janus catalytic material may be an apt choice for developing an economical, efficient, eco-friendly alkaline water electrolyzer. [Display omitted] •Ce-doped α-Bi2O3 nanosheets including reduced graphene oxide•Electrocatalytic H2 production and O2 evolution in water•Energy-efficient and robust water splitting in alkaline conditions•An operational electrolyzer prototype with the same catalyst on both anode and cathode Aziz et al. formulate an electrocatalyst by rationally incorporating cerium and reduced graphene oxide on α-Bi2O3 nanosheets. This material efficiently catalyzes either direction of water electrolysis: H2 and O2 production in alkaline media. An operational alkaline electrolyzer is produced incorporating this dual-active catalyst on stainless steel mesh.
ISSN:2666-3864
2666-3864
DOI:10.1016/j.xcrp.2022.101106