A pentadentate nitrogen-rich copper electrocatalyst for water reduction with pH-dependent molecular mechanisms

A pentadentate nitrogen-rich copper electrocatalyst for water reduction with pH-dependent molecular mechanisms

The new pentadentate 3d complex [Cu (L )](PF ) (1) based on a nitrogen-rich framework acts as an electrocatalyst toward dihydrogen production from water. This species is active at pHs 7 and 2.5 yielding respective TON values of 1670 and 3900. Comparison of the molecular structure of 1 with that of t...

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Veröffentlicht in:Dalton transactions : an international journal of inorganic chemistry 2017, Vol.46 (48), p.16812-16820
Hauptverfasser: Ekanayake, Danushka M, Kulesa, Krista M, Singh, Jaffarguriqbal, Kpogo, Kenneth K, Mazumder, Shivnath, Bernhard Schlegel, H, Verani, Cláudio N
Format: Artikel
Sprache:eng
Schlagworte:
Chemistry
Copper
Electron density
Elongation
Molecular structure
Nitrogen
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Zusammenfassung:The new pentadentate 3d complex [Cu (L )](PF ) (1) based on a nitrogen-rich framework acts as an electrocatalyst toward dihydrogen production from water. This species is active at pHs 7 and 2.5 yielding respective TON values of 1670 and 3900. Comparison of the molecular structure of 1 with that of the reduced [Cu (L )]PF (2) evidences elongated Cu-N bond lengths resulting from an increased electron density around the 3d Cu center. The absence of nanoparticulate formation indicates that molecular mechanisms prevail at both pHs. Furthermore, experimental and DFT data support that distinct mechanisms are operative: while the metal center plays a key role at pH 7, one dangling pyridine moiety gets protonated at pH 2.5 and becomes actively involved in a relay mechanism. In both cases the Cu -H intermediate seems to be bypassed by PCET processes.
ISSN:1477-9226
1477-9234
DOI:10.1039/c7dt02711g