Synthesis, characterization, and hydrogen storage capacities of hierarchical porous carbide derived carbon monolith

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Beitragende

Abstract

Hierarchical porous carbide-derived carbon monoliths (HPCDCM) were prepared by selective extraction of silicon from ordered mesoporous silicon carbide monoliths (OMSCM) through chlorination at high temperature. The OMSCM was firstly synthesized by pressure-assisted nanocasting procedure using KIT-6 silica as the hard template and polycarbosilane (PCS-800) as the preceramic precursor. The OMSCM showed cubic ordered mesoporous structure with specific surface area of over 600 m 2 g -1. After the chlorination, the resulting HPCDCM demonstrated very high specific surface area (2933 m 2 g -1), large pore volume (2.101 cm 3 g -1) with large volume of micropores (0.981 cm 3 g -1), and narrow dual pore size distributions (micropore: 0.9 nm, and mesopore: 3.1 nm). Macropores in the micron range were observed in the HPCDCM. The mesostructural ordering was not maintained in the HPCDCM and the volume of the HPCDCM had greatly shrunk, by 21.2% compared to that of the OMSCM, but the tablet-like appearance was well retained in the HPCDCM. At -196 °C, the HPCDCM shows good hydrogen uptakes of 2.4 wt% and 4.4 wt% at 1 bar and 36 bar, respectively. The calculated volumetric hydrogen storage capacity is 11.6 g L -1 at 36 bar. The gravimetric hydrogen uptake capacity of the HPCDCM is comparable to, or higher than, those of previously reported ordered mesoporous carbide-derived carbon (CDC) powder and microporous CDC powder.

Details

OriginalspracheEnglisch
Seiten (von - bis)23893-23899
Seitenumfang7
FachzeitschriftJournal of materials chemistry
Jahrgang22
Ausgabenummer45
PublikationsstatusVeröffentlicht - 7 Dez. 2012
Peer-Review-StatusJa

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