Performance and stability of electrochemical capacitor based on anthraquinone modified activated carbon

• Published in: Journal of power sources Vol. 196; no. 8; pp. 4117 - 4122
• Main Authors: Pognon, Grégory, Brousse, Thierry, Demarconnay, Laurent, Bélanger, Daniel
• Format: Journal Article
• Language: English
• Published: Amsterdam Elsevier B.V 15.04.2011; Elsevier
• Subjects: Activated carbon; Anthraquinone; Anthraquinones; Applied sciences; Capacitance; Capacitors; Capacitors. Resistors. Filters; Carbon; Carbonaceous materials; Diazonium; Electrical engineering. Electrical power engineering; Electrochemical capacitor; Electrodes; Exact sciences and technology; Grafting; Hybrid multifunctional material; Organic derivatization; Various equipment and components; Organic derivatization; Diazonium; Anthraquinone; Carbon; Electrochemical capacitor; Hybrid multifunctional material; Performance evaluation; Activated carbon; Hybrid material; Supercapacitor; Electrolytic capacitor
• ISSN: 0378-7753; 1873-2755
• DOI: 10.1016/j.jpowsour.2010.09.097

A series of high surface area activated carbon powders modified with various loadings of electroactive anthraquinone groups was obtained by the spontaneous reduction of the corresponding in situ generated diazonium derivative on activated carbon. The diazotation and grafting reactions are fast and efficient and by varying the stoichiometry of these reactions the grafting amount can be controlled. With appropriate reaction conditions, the attachment of anthraquinone groups allows to double the capacitance of the modified carbonaceous material (195 F g −1) compared to the unmodified carbon (100 F g −1) due to the contribution of the redox reaction of grafted anthraquinone molecules. Long time galvanostatic charge–discharge cycling experiments were performed for composite electrodes prepared using modified carbons having two different AQ loadings (e.g. 6.7 and 11.1 wt.%). Following 10 000 charge/discharge cycles, only a 17% loss of the faradaic capacitance was observed for these two carbons. Thus, this hybrid bifunctional material appears to be an excellent candidate for application as active electrode in electrochemical capacitors.