Crafting Fast and Efficient H2 Evolution Electrocatalysts with Tactical Inclusion of Nucleobases

In order to achieve a hydrogen-driven energy infrastructure that is carbon-neutral, it is imperative that there be a synthetic catalyst that is developed from a non-noble metal. The unique interplay between the abundant transition metal containing an active site and the surrounding protein-based out...

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Veröffentlicht in:	ACS catalysis 2023-06, Vol.13 (12), p.8238-8246
Hauptverfasser:	Mir, Ab Qayoom, Das, Srewashi, Rai, Surabhi, Shah, Naseer Ahmad, Majumder, Piyali, Dutta, Arnab
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container_title	ACS catalysis
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creator	Mir, Ab Qayoom Das, Srewashi Rai, Surabhi Shah, Naseer Ahmad Majumder, Piyali Dutta, Arnab
description	In order to achieve a hydrogen-driven energy infrastructure that is carbon-neutral, it is imperative that there be a synthetic catalyst that is developed from a non-noble metal. The unique interplay between the abundant transition metal containing an active site and the surrounding protein-based outer coordination sphere (OCS) is the essence of the remarkable H2 production displayed by hydrogenase enzymes. Here, we report a series of biomimetic cobalt complexes [Co(dimethylglyoxime)2(Nnucleobase derivative)Cl] crafted by strategic incorporation of a nucleobase and its derivatives (adenine, adenosine, adenosine monophosphate and hypoxanthine) around a common template. The nucleoside- and nucleotide-appended complexes electrocatalyze H2 evolution from neutral aqueous solutions at a rapid rate (turnover frequencies of ∼13 000 and ∼12 000 s–1, respectively) while operating at an overpotential of
doi_str_mv	10.1021/acscatal.3c01384
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title	Crafting Fast and Efficient H2 Evolution Electrocatalysts with Tactical Inclusion of Nucleobases
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