Timothy A. Postlethwaite scite author profile

A thiolated bis(cobalt) cofacial diporphyrin chemisorbed on an edge plane pyrolytic graphite electrode has the electrocatalytic activity of a four-electron (n g 3.6) dioxygen reduction catalyst. When chemisorbed on a gold electrode surface, the same catalyst exhibits the activity of only a two-electron catalyst, producing hydrogen peroxide (n ) 2.1). The edge plane graphite surface thus plays a crucial, but not understood, role in designed dioxygen reduction catalysis. Analysis of X-ray photoelectron spectroscopy and UV-vis results is consistent with the rings of the thiolated porphyrins being coplanar to the Au electrode plane. A structurally modified catalyst exhibits greater coplanarity and a slight increase in activity (n ≈ 2.4). The present results set the stage for a strategy of cochemisorbing functionalities onto the thiolated diporphyrin-coated Au surface, seeking those functionalities which will chemically mimic the graphite surface and elevate the catalytic reactivity to a four-electron dioxygen reduction. Such functionalities could include host-guest cochemisorption of putative carbon surface ligands within the porphyrin electrode cavity. † Present address: Collman, J. P.; Hutchison, J. E.; Lopez, M. A.; Tabard, A.; Guilard, R.; Seok, W. K.; Ibers, J. A.; L'Her, M. J. Am. Chem. Soc. 1992, 114, 9869-9877.(3) (a) Collman, J. P.; Hendricks, N. H.; Leidner, C. R.; Ngameni, E.; L'Her, M. Inorg. Chem. 1988, 27, 387. (b) Collman, J. P.; Wagenknecht, P. S.; Hutchison, J. E.

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Interdigitated Array Electrode as an Alternative to the Rotated Ring−Disk Electrode for Determination of the Reaction Products of Dioxygen Reduction

Postlethwaite¹,

Hutchison²,

Murray³

et al. 1996

Anal. Chem.

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Electrochemical reduction of dioxygen in aqueous media can proceed to water, hydrogen peroxide, or a mixture of the two. The production of hydrogen peroxide, classically established with the rotated ring-disk electrode, can also be quantitatively assessed at interdigitated array (IDA) electrodes, where dioxygen is reduced at the set of microband generator electrodes and any H(2)O(2) produced is detected by its oxidation (back to O(2)) at the interdigitated set of microband collector electrodes. The sensitivity of the IDA for H(2)O(2) detection is higher owing to its more complete collection, and to the ensuing regeneration of O(2), which leads to an amplification of the generator currents. The production of H(2)O(2) is thus reflected both in the ratio of collector and generator electrode currents [the collection efficiency, coll(τ)] and in the ratio of the generator current with the collector potential on to that with it off [amplification factor, ampl(τ)]. The necessary theory for interpretation of the fraction ε of H(2)O(2) produced per dioxygen reduced is presented, based on conformal mapping techniques. Explicit equations are derived for ε at long times that are independent of the IDA dimensions and that can be used with any two-product electrochemical reaction analogous to the dioxygen reduction. Experimental data are presented for dioxygen reduction in acidic and basic media to illustrate application of the theory.

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Timothy A. Postlethwaite

Monolayers in Three Dimensions: NMR, SAXS, Thermal, and Electron Hopping Studies of Alkanethiol Stabilized Gold Clusters

Molecular films of thiol-derivatized tetraphenylporphyrins on gold: film formation and electrocatalytic dioxygen reduction

Optical, Electrochemical, and Electrocatalytic Properties of Self-Assembled Thiol-Derivatized Porphyrins on Transparent Gold Films

Electrocatalytic Activity of an Immobilized Cofacial Diporphyrin Depends on the Electrode Material

Interdigitated Array Electrode as an Alternative to the Rotated Ring−Disk Electrode for Determination of the Reaction Products of Dioxygen Reduction

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