2015
DOI: 10.1002/chem.201502618
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Electrocatalytic Dioxygen Reduction by Carbon Electrodes Noncovalently Modified with Iron Porphyrin Complexes: Enhancements from a Single Proton Relay

Abstract: Oxygen reduction in acidic aqueous solution mediated by a series of asymmetric iron (III)-tetra(aryl)porphyrins adsorbed to basal- and edge- plane graphite electrodes is investigated. The asymmetric iron porphyrin systems bear phenyl groups at three meso positions and either a 2-pyridyl, a 2-benzoic acid, or a 2-hydroxyphenyl group at the remaining meso position. The presence of the three unmodified phenyl groups makes the compounds insoluble in water, enabling catalyst retention during electrochemical experim… Show more

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Cited by 46 publications
(58 citation statements)
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“…Cyclic voltammograms of Fe-N-C, (phen2N2)FeCl, (OEP)FeCl, and (Pc)FeCl recorded in the absence of O2 provide insight into the redox potential of the metal center. For (OEP)Fe(Figure 4, orange), we observe a very broad redox feature with E1/2 = 0.27 V (all potentials are reported vs the reversible hydrogen electrode, RHE), similar to reported values for carbon-supported iron porphyrin complexes 113,135. For (Pc)Fe(Figure 4, aqua), we observe a broad redox feature with E1/2 = 0.61, similar to reported values for carbon-supported iron phthalocyanine complexes (Figure S19).…”
supporting
confidence: 85%
“…Cyclic voltammograms of Fe-N-C, (phen2N2)FeCl, (OEP)FeCl, and (Pc)FeCl recorded in the absence of O2 provide insight into the redox potential of the metal center. For (OEP)Fe(Figure 4, orange), we observe a very broad redox feature with E1/2 = 0.27 V (all potentials are reported vs the reversible hydrogen electrode, RHE), similar to reported values for carbon-supported iron porphyrin complexes 113,135. For (Pc)Fe(Figure 4, aqua), we observe a broad redox feature with E1/2 = 0.61, similar to reported values for carbon-supported iron phthalocyanine complexes (Figure S19).…”
supporting
confidence: 85%
“…We note that the Fe(III/II) redox couple of (OEP)FeCl is quite broad with a peak-to-peak separation of 315 mV. We attribute this to sluggish Fe(III/II) redox self-exchange through the film, but nonetheless, we note that the observed E 1/2 value is comparable to other carbon-adsorbed iron porphyrin compounds 17 , 56 , 77 , 78 . For (Pc)FeCl (Fig.…”
Section: Resultsmentioning
confidence: 56%
“…While this species is catalytically inactive in the acidic electrolyte (Supplementary Fig. 6 ) 56 , 57 , it provides a good spectroscopic model for Fe-N-C materials and the analogous [(OEP)Fe] 2 O and [(Pc)Fe] 2 O were synthesized for comparison 55 , 58 , 59 . The 57 Fe Mössbauer spectrum of the [(phen 2 N 2 )Fe] 2 O complex is a narrow doublet (Supplementary Fig.…”
Section: Resultsmentioning
confidence: 99%
“…imitating the proton transfer pathways and hydrogen bonding groups in cytochrome c oxidase 149,[175][176][177][178][179] demonstrated high selectivity (greater than 90%) and reactivity (rate constant greater than 10 7 M À1 s À1 ) for ORR at pH = 7 when adsorbed on an edge-plane graphitic electrode. 180 The measured rate constant of oxygen reduction was approximately two orders of magnitude higher than the heme/Cu complexes, [181][182][183][184][185][186] suggesting that the distal basic residues stabilize the Fe III -OOH intermediate species and enable heterolytic cleavage via protonation of their distal oxygen, promoting a four-electron ORR route. 180 Another promising example of a bio-imitating, porphyrinbased ORR electrocatalyst mimicking the active site of oxygenactivating heme-containing enzymes, such as cytochrome c oxidase, is an axial-imidazole coordinated iron porphyrin, covalently grafted on multi-wall carbon nanotubes (MWCNTs).…”
Section: Orr Pathway Acidic Mediummentioning
confidence: 99%