Redox Grafting of Diazotated Anthraquinone as a Means of Forming Thick Conducting Organic Films

Bousquet, Antoine; Ceccato, Marcel; Hinge, Mogens; Pedersen, Steen Uttrup; Daasbjerg, Kim

doi:10.1021/la203657n

Cited by 42 publications

(75 citation statements)

References 47 publications

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“…In our experimental grafting conditions, the ClAQ surface coverage for the modified carbon material was estimated to about only 25% of that expected for a monolayer. 12 Since the surface coverage of AQ molecules electrochemically grafted varies linearly with film thickness up to a surface concentration of 10 © 10 ¹9 mol cm ¹2 , 19 one can consider that all AQ molecules are electroactive and postulate that this is also the case for a low surface coverage such as the one estimated for the ClAQ-modified carbon. Finally, surface functionalization enables an increase of the specific capacitance of the modified electrode by a factor of two (from 110 to 206 F/g) compared to pristine carbon electrode.…”

Section: Resultsmentioning

confidence: 99%

“…This might not be always the case as previously demonstrated for nitrophenyl-modified carbon 18 and although the surface coverage of an electrochemically modified Au electrode with anthraquinone groups was found to vary linearly with film thickness. 19 Secondly, in one of our recent study, the electrochemical behavior of anthraquinone-modified Black Pearls was investigated in electrolyte of various pHs ranging from acidic (0.1 M H 2 SO 4 ) to alkaline (0.1 M KOH) media. 15 It was found that the voltammetric charge varied significantly between these two electrolytes.…”

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confidence: 99%

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Determination of the Quinone-loading of a Modified Carbon Powder-based Electrode for Electrochemical Capacitor

et al. 2013

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Black Pearls (BP) carbon powder was chemically modified with chloroanthraquinone groups by spontaneous reduction of 1-amino, 5-chloroanthraquinone with the aim of determining the quinone content of the modified carbon. This information is essential to determine the increase of capacitance associated to the grafted quinone molecules. The capacitance of pristine carbon electrode was doubled due to the presence of the grafted electroactive molecules. The modified BP powder was characterized by thermogravimetric and elemental analyses. The modified powder was also used to fabricate composite electrodes that were characterized by electrochemistry to determine the loading of electroactive quinone molecules. The presence of the chlorine atom on the anthraquinone moiety allows an estimation of the loading from elemental analysis, which is in relatively good agreement with the value estimated by electrochemistry.

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Section: Resultsmentioning

confidence: 99%

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confidence: 99%

Determination of the Quinone-loading of a Modified Carbon Powder-based Electrode for Electrochemical Capacitor

et al. 2013

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“…Redox grafting parameters, such as scan rate, switching potentials, and number of cycles, are chosen accordingly to Ref. [32] in order to obtain a thin molecular layer (∼1-10 nm) even for high number of cycles (N > 10). This method ensures the formation of a robust and thin layer of AQ molecules bonded covalently to the electrode [32][33][34][35].…”

Section: Sample Fabrication and Methodsmentioning

confidence: 99%

“…[32] in order to obtain a thin molecular layer (∼1-10 nm) even for high number of cycles (N > 10). This method ensures the formation of a robust and thin layer of AQ molecules bonded covalently to the electrode [32][33][34][35]. In the present case, for 20 voltammetry cycles the total AQ thickness is estimated by atomic force microscopy (AFM) to be ∼8 nm.…”

Section: Sample Fabrication and Methodsmentioning

confidence: 99%

Inelastic electron tunneling spectroscopy in molecular junctions showing quantum interference

et al. 2017

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Destructive quantum interference effect is implemented in large area molecular junctions to improve signatures of electron-phonon interaction. Vertical molecular junctions based on a cross-conjugated anthraquinone layer were fabricated and low-noise transport measurements were performed by acquiring simultaneously the current-voltage characteristics, its second derivative, and the differential conductance. Signatures of vibrational modes excited by inelastic events are present in the whole measured voltage range and superpose to the conductance suppression induced by destructive quantum interference. As a consequence vibrational modes have improved visibility in the low energy window (<80 meV). Inelastic electron transport spectroscopy data are compared to infrared attenuated total reflection spectroscopy on Au/anthraquinone thin films. Common vibrational modes can be clearly identified, but inelastic electron tunneling spectroscopy reveals the existence of vibrational modes in a wider energy range (0-400 meV) where infrared spectroscopy is lacking.

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“…Recently, a new method called redox grafting was proposed for formation of thick covalently attached conducting organic layers on different substrates (GC, gold, and stainless steel) via electrochemical reduction of various aryldiazonium salts (e.g., 9,10-dioxo-9,10-dihydroanthracene-1-diazonium salt) [48][49][50]. A prerequisite for redox grafting is that the aryldiazonium salt used should contain a redox active functionality.…”

Section: à2mentioning

confidence: 99%

Electrochemical Behaviour of HOPG and CVD‐Grown Graphene Electrodes Modified with Thick Anthraquinone Films by Diazonium Reduction

et al. 2014

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Highly oriented pyrolytic graphite (HOPG) and graphene grown on Ni (Ni‐Gra) or Cu (Cu‐Gra) by chemical vapour deposition were modified with thick anthraquinone (AQ) films (7−60 nm) by redox grafting of the pertinent diazonium salt. Glassy carbon (GC) electrodes were used for comparison. The AQ‐modified GC electrodes showed excellent blocking properties towards the Fe(CN)63−/4− redox probe, although it was noted that in the case of Ni‐Gra and Cu‐Gra, the blocking ability depended strongly on the underlying substrate. Oxygen reduction studies revealed good electrocatalytic activity of AQ‐modified HOPG, Ni‐Gra, and Cu‐Gra, compared with the bare electrodes.

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Redox Grafting of Diazotated Anthraquinone as a Means of Forming Thick Conducting Organic Films

Cited by 42 publications

References 47 publications

Determination of the Quinone-loading of a Modified Carbon Powder-based Electrode for Electrochemical Capacitor

Determination of the Quinone-loading of a Modified Carbon Powder-based Electrode for Electrochemical Capacitor

Inelastic electron tunneling spectroscopy in molecular junctions showing quantum interference

Electrochemical Behaviour of HOPG and CVD‐Grown Graphene Electrodes Modified with Thick Anthraquinone Films by Diazonium Reduction

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