2023
DOI: 10.1039/d3cy00797a
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How advances in theoretical chemistry meet industrial expectations in electrocatalysts for water splitting

Jose Gracia,
Chiara Biz,
Mauro Fianchini
et al.

Abstract: The fundamental knowledge in heterogeneous catalysis has significantly advanced in the last few years due to the awareness of the role of non-weakly correlated electrons in open-shell magnetic catalysts and...

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Cited by 2 publications
(2 citation statements)
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References 175 publications
(345 reference statements)
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“…All these solid catalysts possess well-known diverse magnetic properties that range from paramagnetism to collective magnetism. Some remarkable examples include the use of ferromagnetic platinum/cobalt (Pt/Co) alloys as ORR (oxygen reduction reaction) catalysts in commercially available fuel cells for electric vehicles [15,25] and stateof-the-art OER (oxygen evolution reaction) catalysts, like paramagnetic iridium dioxide (IrO 2 ) [6,26] and antiferromagnetic ruthenium dioxide (RuO 2 ) (with a Néel temperature up to ~300 K) [26][27][28]. Moreover, in the last few years, paramagnetic heterogeneous materials, in particular, ferromagnetic ones, have once more become the target of extensive studies on the influence of external applied magnetic fields in catalysis [18].…”
Section: On the Interplay Between Magnetism And Covalent Bondingmentioning
confidence: 99%
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“…All these solid catalysts possess well-known diverse magnetic properties that range from paramagnetism to collective magnetism. Some remarkable examples include the use of ferromagnetic platinum/cobalt (Pt/Co) alloys as ORR (oxygen reduction reaction) catalysts in commercially available fuel cells for electric vehicles [15,25] and stateof-the-art OER (oxygen evolution reaction) catalysts, like paramagnetic iridium dioxide (IrO 2 ) [6,26] and antiferromagnetic ruthenium dioxide (RuO 2 ) (with a Néel temperature up to ~300 K) [26][27][28]. Moreover, in the last few years, paramagnetic heterogeneous materials, in particular, ferromagnetic ones, have once more become the target of extensive studies on the influence of external applied magnetic fields in catalysis [18].…”
Section: On the Interplay Between Magnetism And Covalent Bondingmentioning
confidence: 99%
“…The role of stability in catalysis is industrially crucial since it determines the lifetime of the solid catalysts in reactors [2]. Catalyst stability can also be improved via engineering magnetic interactions [28]. In this regard, the use of platinum ordered intermetallic compounds (Pt 1-x M x where M is Fe or Co) as ORR solid catalysts (see Table 2) is outstanding.…”
Section: Hamiltonian Operatormentioning
confidence: 99%