Glycine-nitrate derived cobalt-doped BiPO4: An efficient OER catalyst for alkaline electrochemical cells

The investigation of cost effective and earth abundant electro-catalyst to catalyze oxygen evolution reaction (OER) is highly desirable for the development of future sustainable energy. Herein, a facile one step glycine-nitrate decomposition method has been proposed to synthesize crystalline un-dope...

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Bibliographic Details
Published in:Solid state sciences 2022-02, Vol.124, p.106803, Article 106803
Main Authors: Shreenivasa, L., S, Ashoka, K, Yogesh, Syed, Asad, Marraiki, Najat, Adarakatti, Prashanth S.
Format: Article
Language:English
Subjects:
Cobalt doped BiPO4
Long term stability
Low overpotential
OER catalyst
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Summary:The investigation of cost effective and earth abundant electro-catalyst to catalyze oxygen evolution reaction (OER) is highly desirable for the development of future sustainable energy. Herein, a facile one step glycine-nitrate decomposition method has been proposed to synthesize crystalline un-doped and cobalt doped BiPO4. The prepared un-doped and cobalt doped BiPO4 have been evaluated as potential electro-catalysts for OER. The XRD, XPS and ICP-OES results reveal that BiPO4 undergo surface reconstruction during OER and thereby converted into Bi2O3. Thus, the in situ formed Bi2O3 is the real active catalyst to catalyze OER where 5% cobalt doped BiPO4 exhibits excellent OER activity in terms of low overpotential of 328 mV and 394 mV to afford the current density of 10 and 50 mA cm−2 respectively, which is much lower than that of the un-doped BiPO4 (480 mV). Besides, the polarization curves of 5% cobalt doped BiPO4 shows negligible difference in overpotential even after 20 h of continuous electrolysis, demonstrating excellent stability in alkaline KOH. This work demonstrates intrinsic electro-catalytic activity of phosphate based electro-catalyst can be improved by doping with suitable transition metal and through surface reconstruction. (a) Crystal structure of BiPO4, view along the C-axis and (b) powder XRD patterns of un-doped BiPO4, 3%, 5%, 7% and 10% cobalt doped BiPO4, prepared using glycine at 550 °C for 5 h. [Display omitted] •Cobalt doped bismuth phosphate is prepared through solution combustion.•Electrocatalyst exhibits outstanding OER performance.•Bismuth phosphate undergoes surface reconstruction.•This method can be used to generate pure hydrogen via water electrolysis.
ISSN:1293-2558
1873-3085
DOI:10.1016/j.solidstatesciences.2021.106803