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Organometallic Electrodes: Modification of Electrode Surfaces through Cathodic Reduction of Cyclopentadienyldiazonium Complexes of Cobalt and Manganese

Two organometallic complexes having cyclopentadienyldiazonium ligands have been isolated and characterized by spectroscopy, X-ray crystallography, and electrochemistry. Both CoCp(η5-C5H4N2)2+ (2 2+) and Mn(CO)3(η5-C5H4N2)+ (3 +) undergo facile cyclopentadienyldiazonium ligand-based one-electron redu...

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Published in:	Langmuir 2010-09, Vol.26 (18), p.15010-15021
Main Authors:	Laws, Derek R, Sheats, John, Rheingold, Arnold L, Geiger, William E
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Language:	English
Subjects:	Chemistry Electrochemistry Electrochemistry: Charge Transfer, Electrocatalysis, Kinetics, Bioelectrochemistry Exact sciences and technology General and physical chemistry
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description	Two organometallic complexes having cyclopentadienyldiazonium ligands have been isolated and characterized by spectroscopy, X-ray crystallography, and electrochemistry. Both CoCp(η5-C5H4N2)2+ (2 2+) and Mn(CO)3(η5-C5H4N2)+ (3 +) undergo facile cyclopentadienyldiazonium ligand-based one-electron reductions which liberate dinitrogen and result in strong binding of the cyclopentadienyl ligand to a glassy carbon surface, similar to the processes well established for organic aryldiazonium salts. The organometallic-modified electrodes are robust and have a thickness of approximately one monolayer (Γ = (2−4) × 10−10 mol cm−2). Their voltammetric responses are as expected for a cobaltocenium-modified electrode, [CoCp(η5-C5H4-E)]+, where Cp = cyclopentadienyl and E = electrode, and a “cymantrene”-modified electrode Mn(CO)3(η5-C5H4-E). The cobaltocenium electrode has two cathodic surface waves. The first (E 1/2 = −1.34 V vs ferrocene) is highly reversible, whereas the second (E pc = −2.4 V) is not, consistent with the known behavior of cobaltocenium. The cymantrene-substituted electrode has a partially chemically reversible anodic wave at E 1/2 = 0.96 V, also consistent with the behavior of its Mn(CO)3Cp parent. Many of the properties of aryl-modified electrodes, such as “blockage” of the voltammetric responses of test analytes, are also seen for the organometallic-modified electrodes. Surface-based substitution of a carbonyl group by a phosphite ligand, P(OR)3, R = Ph or Me, was observed when the cymantrene-modified electrode was anodically oxidized in the presence of a phosphite ligand. The successful grafting of organometallic moieties by direct bonding of a cyclopentadienyl ligand to electrode surfaces expands the chemical and electrochemical dimensions of diazonium-based modified electrodes.
doi_str_mv	10.1021/la102579t
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Both CoCp(η5-C5H4N2)2+ (2 2+) and Mn(CO)3(η5-C5H4N2)+ (3 +) undergo facile cyclopentadienyldiazonium ligand-based one-electron reductions which liberate dinitrogen and result in strong binding of the cyclopentadienyl ligand to a glassy carbon surface, similar to the processes well established for organic aryldiazonium salts. The organometallic-modified electrodes are robust and have a thickness of approximately one monolayer (Γ = (2−4) × 10−10 mol cm−2). Their voltammetric responses are as expected for a cobaltocenium-modified electrode, [CoCp(η5-C5H4-E)]+, where Cp = cyclopentadienyl and E = electrode, and a “cymantrene”-modified electrode Mn(CO)3(η5-C5H4-E). The cobaltocenium electrode has two cathodic surface waves. The first (E 1/2 = −1.34 V vs ferrocene) is highly reversible, whereas the second (E pc = −2.4 V) is not, consistent with the known behavior of cobaltocenium. The cymantrene-substituted electrode has a partially chemically reversible anodic wave at E 1/2 = 0.96 V, also consistent with the behavior of its Mn(CO)3Cp parent. Many of the properties of aryl-modified electrodes, such as “blockage” of the voltammetric responses of test analytes, are also seen for the organometallic-modified electrodes. Surface-based substitution of a carbonyl group by a phosphite ligand, P(OR)3, R = Ph or Me, was observed when the cymantrene-modified electrode was anodically oxidized in the presence of a phosphite ligand. 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Both CoCp(η5-C5H4N2)2+ (2 2+) and Mn(CO)3(η5-C5H4N2)+ (3 +) undergo facile cyclopentadienyldiazonium ligand-based one-electron reductions which liberate dinitrogen and result in strong binding of the cyclopentadienyl ligand to a glassy carbon surface, similar to the processes well established for organic aryldiazonium salts. The organometallic-modified electrodes are robust and have a thickness of approximately one monolayer (Γ = (2−4) × 10−10 mol cm−2). Their voltammetric responses are as expected for a cobaltocenium-modified electrode, [CoCp(η5-C5H4-E)]+, where Cp = cyclopentadienyl and E = electrode, and a “cymantrene”-modified electrode Mn(CO)3(η5-C5H4-E). The cobaltocenium electrode has two cathodic surface waves. The first (E 1/2 = −1.34 V vs ferrocene) is highly reversible, whereas the second (E pc = −2.4 V) is not, consistent with the known behavior of cobaltocenium. The cymantrene-substituted electrode has a partially chemically reversible anodic wave at E 1/2 = 0.96 V, also consistent with the behavior of its Mn(CO)3Cp parent. Many of the properties of aryl-modified electrodes, such as “blockage” of the voltammetric responses of test analytes, are also seen for the organometallic-modified electrodes. Surface-based substitution of a carbonyl group by a phosphite ligand, P(OR)3, R = Ph or Me, was observed when the cymantrene-modified electrode was anodically oxidized in the presence of a phosphite ligand. 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Both CoCp(η5-C5H4N2)2+ (2 2+) and Mn(CO)3(η5-C5H4N2)+ (3 +) undergo facile cyclopentadienyldiazonium ligand-based one-electron reductions which liberate dinitrogen and result in strong binding of the cyclopentadienyl ligand to a glassy carbon surface, similar to the processes well established for organic aryldiazonium salts. The organometallic-modified electrodes are robust and have a thickness of approximately one monolayer (Γ = (2−4) × 10−10 mol cm−2). Their voltammetric responses are as expected for a cobaltocenium-modified electrode, [CoCp(η5-C5H4-E)]+, where Cp = cyclopentadienyl and E = electrode, and a “cymantrene”-modified electrode Mn(CO)3(η5-C5H4-E). The cobaltocenium electrode has two cathodic surface waves. The first (E 1/2 = −1.34 V vs ferrocene) is highly reversible, whereas the second (E pc = −2.4 V) is not, consistent with the known behavior of cobaltocenium. The cymantrene-substituted electrode has a partially chemically reversible anodic wave at E 1/2 = 0.96 V, also consistent with the behavior of its Mn(CO)3Cp parent. Many of the properties of aryl-modified electrodes, such as “blockage” of the voltammetric responses of test analytes, are also seen for the organometallic-modified electrodes. Surface-based substitution of a carbonyl group by a phosphite ligand, P(OR)3, R = Ph or Me, was observed when the cymantrene-modified electrode was anodically oxidized in the presence of a phosphite ligand. The successful grafting of organometallic moieties by direct bonding of a cyclopentadienyl ligand to electrode surfaces expands the chemical and electrochemical dimensions of diazonium-based modified electrodes.</abstract><cop>Washington, DC</cop><pub>American Chemical Society</pub><pmid>20726537</pmid><doi>10.1021/la102579t</doi><tpages>12</tpages></addata></record>
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subjects	Chemistry Electrochemistry Electrochemistry: Charge Transfer, Electrocatalysis, Kinetics, Bioelectrochemistry Exact sciences and technology General and physical chemistry
title	Organometallic Electrodes: Modification of Electrode Surfaces through Cathodic Reduction of Cyclopentadienyldiazonium Complexes of Cobalt and Manganese
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