Facile preparation of hierarchically porous carbon using diatomite as both template and catalyst and methylene blue adsorption of carbon products

[Display omitted] ► Templated carbon obtained by using surface solid acidity and morphology of diatomite. ► The carbon with macroporous structure composed of carbon tubes and pillars. ► The carbon with good adsorption capacity of methylene blue and regenerability. Hierarchically porous carbons were...

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Veröffentlicht in:Journal of colloid and interface science 2012-12, Vol.388 (1), p.176-184
Hauptverfasser: Liu, Dong, Yuan, Peng, Tan, Daoyong, Liu, Hongmei, Wang, Tong, Fan, Mingde, Zhu, Jianxi, He, Hongping
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Sprache:eng
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Zusammenfassung:[Display omitted] ► Templated carbon obtained by using surface solid acidity and morphology of diatomite. ► The carbon with macroporous structure composed of carbon tubes and pillars. ► The carbon with good adsorption capacity of methylene blue and regenerability. Hierarchically porous carbons were prepared using a facile preparation method in which diatomite was utilized as both template and catalyst. The porous structures of the carbon products and their formation mechanisms were investigated. The macroporosity and microporosity of the diatomite-templated carbons were derived from replication of diatom shell and structure-reconfiguration of the carbon film, respectively. The macroporosity of carbons was strongly dependent on the original morphology of the diatomite template. The macroporous structure composed of carbon plates connected by the pillar- and tube-like macropores resulted from the replication of the central and edge pores of the diatom shells with disk-shaped morphology, respectively. And another macroporous carbon tubes were also replicated from canoe-shaped diatom shells. The acidity of diatomite dramatically affected the porosity of the carbons, more acid sites of diatomite template resulted in higher surface area and pore volume of the carbon products. The diatomite-templated carbons exhibited higher adsorption capacity for methylene blue than the commercial activated carbon (CAC), although the specific surface area was much smaller than that of CAC, due to the hierarchical porosity of diatomite-templated carbons. And the carbons were readily reclaimed and regenerated.
ISSN:0021-9797
1095-7103
DOI:10.1016/j.jcis.2012.08.023