2022
DOI: 10.1039/d2ee01042a
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A highly active and stable 3D dandelion spore-structured self-supporting Ir-based electrocatalyst for proton exchange membrane water electrolysis fabricated using structural reconstruction

Abstract: A highly active and stable 3D dandelion spore-structured self-supporting Ir-based electrocatalyst for proton exchange membrane water electrolysis fabricated using structural reconstruction.

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Cited by 69 publications
(28 citation statements)
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“…10(a)) [145,227]. The current density in PEMWE is expected to be higher than 1 A•cm -2 , with the operating temperature around 60 to 80 °C, and the energy efficiency is expected to be between 75% and 80% [228,229]. Actually, though many catalysts have been demonstrated to have good catalytic performance in acidic OER, they might not be available in the practical PEMWE application [36].…”
Section: Ir-based Single-atom Catalysts (Sacs)mentioning
confidence: 99%
“…10(a)) [145,227]. The current density in PEMWE is expected to be higher than 1 A•cm -2 , with the operating temperature around 60 to 80 °C, and the energy efficiency is expected to be between 75% and 80% [228,229]. Actually, though many catalysts have been demonstrated to have good catalytic performance in acidic OER, they might not be available in the practical PEMWE application [36].…”
Section: Ir-based Single-atom Catalysts (Sacs)mentioning
confidence: 99%
“…As a prominent half-reaction, the electrocatalytic oxygen evolution reaction (OER) has attracted great attention in the diverse energy-related realm, such as producing clean hydrogen from overall water splitting, fuel cells, renewable metal-air batteries, and CO 2 reduction. Unfortunately, in practical applications, the actual potential to drive OER is as high as 1.8 V, even to 2.0 V, much higher than 1.23 V, the theoretical thermodynamics potential. , This high input potential inevitably causes extra energy consumption. Therefore, replacing OER with more easily oxidizable species is an effective and environmentally friendly way. , Among them, the urea oxidation reaction (UOR), which has a lower theoretical voltage of only 0.37 V cuts a striking figure. Moreover, UOR holds great significance for the treatment of urea-rich industrial wastewater and domestic sewage. , Thus, UOR is an ideal alternative to the conventional OER.…”
Section: Introductionmentioning
confidence: 99%
“…11–13 Currently, Ir-based catalysts are the only available acidic OER electrocatalysts with both reasonable activity and stability for commercial PEMWE electrolyzers. 14–16 However, large-scale deployment of PEMWE electrolyzers is restricted by the low earth abundance and high cost of iridium. 13,17 Therefore, the development of more active and robust electrocatalysts remains a pivotal task for acidic OER and HER.…”
Section: Introductionmentioning
confidence: 99%