Hierarchical ordered mesoporous carbon from phloroglucinol-glyoxal and its application in capacitive deionization of brackish water

Templated carbon materials have recently received tremendous attention due to energy storage and separations applications. Hierarchical structures are ideal for increased mass-transport throughout the carbon material. A new ordered mesoporous carbon material has been developed using glyoxal which ex...

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Veröffentlicht in:	Journal of materials chemistry 2010-01, Vol.2 (39), p.8674-8678
Hauptverfasser:	Mayes, Richard T, Tsouris, Costas, Kiggans Jr, James O, Mahurin, Shannon M, DePaoli, David W, Dai, Sheng
Format:	Artikel
Sprache:	eng
Schlagworte:	ADSORPTION CARBON CROSS-LINKING ELECTRODES ENERGY STORAGE GLYOXAL KINETICS MATERIALS SCIENCE WATER
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creator	Mayes, Richard T Tsouris, Costas Kiggans Jr, James O Mahurin, Shannon M DePaoli, David W Dai, Sheng
description	Templated carbon materials have recently received tremendous attention due to energy storage and separations applications. Hierarchical structures are ideal for increased mass-transport throughout the carbon material. A new ordered mesoporous carbon material has been developed using glyoxal which exhibits a hierarchical structure with pore sizes up to 200 nm. The hierarchical structure arises from the cross linking reagent and not from the standard spinodal decomposition of a secondary solvent. The carbon material was studied for potential application as a capacitive deionization (CDI) electrode for brackish water. Results indicate that the hierarchical structure provides a pathway for faster adsorption kinetics when compared to standard resorcinol-formaldehyde CDI electrodes. A formaldehyde-free mesoporous carbon has been developed that has an inherent hierarchical structure and exhibits superior capacitive deionization ion uptake kinetics when compared to traditional resorcinol-formaldehyde mesoporous carbons.
doi_str_mv	10.1039/c0jm01911a
format	Article
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subjects	ADSORPTION CARBON CROSS-LINKING ELECTRODES ENERGY STORAGE GLYOXAL KINETICS MATERIALS SCIENCE WATER
title	Hierarchical ordered mesoporous carbon from phloroglucinol-glyoxal and its application in capacitive deionization of brackish water
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