Inter‐relationships between Oxygen Evolution and Iridium Dissolution Mechanisms

Abstract: Figure 1. a) Electrochemical oxide pathway. [13] Copyright 2016, John Wiley and Sons. b) Cationic redox mechanism proposed by Kçtz et al. [21] Copyright 1984, IOP Publishing. c) Scheme of the OER, including the formation of an OOH intermediate, as detected by Sivasankar et al. [24] Copyright 2011, AmericanC hemical Society.d )Schematic representation of O2pbands penetrating into Ir dorbitals and triggering an anionic redox process. [27] Copyright 2016, Springer Nature. e) OER scheme showing the formation of ox… Show more

“…The stability is another challenge possibly caused by the dissolution and amorphization of Ir and non-Ir metals in the catalysts during the OER. [9][10][11][12] Recently, it is reported that A x Ir y O z usually forms bulk with large size and irregular morphology due to the conventional use of solid phase synthesis method with high temperature and pressure. 13 Unlike the above catalysts, A x Ir y O z with regular morphology can expose more catalytic active sites.…”

Hydroxyl-rich KIr4O8 Nanowires Promote Acidic Water Oxidation Electrocatalysis with Industrial Current Density

“…The stability is another challenge possibly caused by the dissolution and amorphization of Ir and non-Ir metals in the catalysts during the OER. [9][10][11][12] Recently, it is reported that A x Ir y O z usually forms bulk with large size and irregular morphology due to the conventional use of solid phase synthesis method with high temperature and pressure. 13 Unlike the above catalysts, A x Ir y O z with regular morphology can expose more catalytic active sites.…”

Hydroxyl-rich KIr4O8 Nanowires Promote Acidic Water Oxidation Electrocatalysis with Industrial Current Density