Binder- free iridium based electrocatalysts: Facile preparation, high activity and outstanding stability for hydrogen evolution reaction in acidic medium

Binder- free iridium based electrocatalysts: Facile preparation, high activity and outstanding stability for hydrogen evolution reaction in acidic medium

[Display omitted] Herein, we develop various iridium based catalysts using titania, zirconia and ceria as a supporting material (Ir/MO2; M = Ce, Ti, Zr) for hydrogen evolution reaction (HER). To investigate their electrocatalytic activities, glassy carbon electrodes (GCE) were modified by drop casti...

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Bibliographic Details
Published in:Journal of colloid and interface science Vol. 580; pp. 11 - 20
Main Authors: Akbayrak, Merve, Önal, Ahmet M.
Format: Journal Article
Language:English
Published: Elsevier Inc 15-11-2020
Subjects:
Ceria
Electrocatalyst
Hydrogen evolution reaction
Iridium
Water splitting
Hydrogen evolution reaction
Electrocatalyst
Water splitting
Iridium
Ceria
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Summary:[Display omitted] Herein, we develop various iridium based catalysts using titania, zirconia and ceria as a supporting material (Ir/MO2; M = Ce, Ti, Zr) for hydrogen evolution reaction (HER). To investigate their electrocatalytic activities, glassy carbon electrodes (GCE) were modified by drop casting the catalyst ink without using any binder. Linear sweep voltammetry (LSV) was used to test their electrocatalytic activities in 0.5 M H2SO4 solution. Among these catalysts, Ir/CeO2 was found to exhibit excellent activity and superior stability. According to the polarization curves, onset potential (η0) and overpotential (η@10 mA.cm−2) of Ir/CeO2 were found as −13 and −23 mV, respectively, which are lower than the values obtained for commercial 10% Pt/C catalyst. Moreover, Ir/CeO2 provides low Tafel slope (38.7 mV.dec-1), high turnover frequency (1.95 @100 mV) and high exchange current density (2.69 mA.cm−2) values. In addition, Ir/CeO2 shows superior stability even after 20 000 cycle in acidic environment (pH = 0.3) which makes Ir/CeO2 (2.44 wt% Ir) as a promising alternative electrocatalyst for HER.
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content type line 23
ISSN:0021-9797
1095-7103
DOI:10.1016/j.jcis.2020.06.117