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Article Dans Une Revue Sustainable Energy & Fuels Année : 2023

Electro- and photochemical H2 generation by Co(II) polypyridyl-based catalysts bearing ortho-substituted pyridines

Résumé

Cobalt(II) complexes featuring hexadentate amino-pyridyl ligands have been recently discovered as highly active catalysts for the Hydrogen Evolution Reaction (HER), whose high performance arises from the possibility to assist proton transfer processes via intramolecular routes involving detached pyridine units. With the aim of gaining insights in such catalytic routine, three new proton reduction catalysts based on amino-polypyridyl ligands are reported, focusing on substitution of the pyridine ortho- position. Especially, a carboxylate (C2) and two hydroxyl substituted pyridyl moieties (C3, C4) are introduced with the aim of promoting intramolecular proton transfer possibly enhancing the efficiency of the catalysts. Foot-of-the-wave and catalytic Tafel plot analyses have been utilized to benchmark the catalytic performances under electrochemical conditions in acetonitrile using trifluoroacetic acid as the proton source. In this respect, the cobalt complex C3 results as the fastest catalyst in the series, maximum turnover frequency (TOF) of 1.6 (± 0.5)x105 s-1, but at the expenses of large overpotentials. Mechanistic investigation by means of Density Functional Theory (DFT) suggest a typical ECEC mechanism (i.e. a sequence of reductions -E- and protonations -C- events) for all the catalysts, as previously envisioned for the parent unsubstituted complex C1. Interestingly, in the case of complexes C2, the catalytic route is triggered by initial protonation of the carboxylate group resulting in a less common (C)ECEC mechanism. The pivotal role of the hexadentate chelating ligand in providing internal proton relays to assist hydrogen elimination is further confirmed within this novel class of molecular catalysts, thus highlighting the relevance of a flexible polypyridine ligand in the design of efficient cobalt complexes for the HER. Photochemical studies in aqueous solution using [Ru(bpy)3]2+ (where bpy = 2,2’-bipyridine) as the sensitizer and ascorbate as the sacrificial electron donor support the superior performance of C3.
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Dates et versions

hal-04137967 , version 1 (22-06-2023)

Identifiants

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Fiorella Lucarini, Jennifer Fize, Adina Morozan, Federico Droghetti, Euro Solari, et al.. Electro- and photochemical H2 generation by Co(II) polypyridyl-based catalysts bearing ortho-substituted pyridines. Sustainable Energy & Fuels, 2023, 7 (3), pp.3384-3394. ⟨10.1039/d3se00295k⟩. ⟨hal-04137967⟩
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