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Abstract
We report here nickel(II) complexes (Ni-1 and Ni-2) of triply fused (covalently linked through β–β, meso–meso, β′–β′ linkages) porphyrins functionalized with tert-butyl and O-hexyl chains for the investigation of the electrocatalytic hydrogen evolution reaction (HER). The analogous monometallic porphyrins Ni-3 and Ni-4 were also synthesized for comparative analysis. Cyclic voltammetry of the bimetallic complexes functionalized with tert-butyl and O-hexyl chains showed an anodic shift in reduction potentials of Ni-1. The influence of the long alkyl chains was even more pronounced during electrochemical proton reduction with trifluoroacetic acid (TFA), as confirmed by the higher icat/ip and rate constants (kobs) of Ni-2 compared to Ni-1. Additionally, Faradaic efficiencies for the HER is more than 90 % for Ni-2, which is three times larger than Ni-1. Ni-2 also displays turnover numbers that are more than 200 times larger than Ni-1. A mechanistic investigation using UV-vis-NIR and EPR spectroscopy as well theoretical calculations indicate the involvement of the doubly reduced species as an active catalytic intermediate in the electrocatalytic process.
Supplementary materials
Title
Synthetic, Spectroscopic, Electrochemical and Thereoteical Details
Description
Description of synthesis, all electrochemical, UV-vis-NIR/EPR spectroelectrochemical details, kinetic analyses, details of DFT calculations, X-ray diffraction data, NMR data.
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