Journalartikel
Autorenliste: Nickel, W; Oschatz, M; von der Lehr, M; Leistner, M; Hao, GP; Adelhelm, P; Müller, P; Smarsly, BM; Kaskel, S
Jahr der Veröffentlichung: 2014
Seiten: 12703-12707
Zeitschrift: Journal of Materials Chemistry A: materials for energy and sustainability
Bandnummer: 2
Heftnummer: 32
ISSN: 2050-7488
Open Access Status: Hybrid
DOI Link: https://doi.org/10.1039/c4ta02260b
Verlag: Royal Society of Chemistry
Abstract:
Carbide-derived carbon Monoliths (CDC-Ms) containing a multimodal arrangement with high volumes of micro- meso- and macropores are prepared by direct nanocasting of silica monoliths with poly-carbosilane precursors. CDC-Ms show well-defined pore structures along with specific surface areas of more than 2600 m(2) g(-1) and overall pore volumes as high as 3.14 cm(3) g(-1). They exhibit advanced gas filtration properties compared to purely microporous materials due to enhanced storage capacities and kinetics as demonstrated by thermal response measurements based on InfraSORP technology.
Zitierstile
Harvard-Zitierstil: Nickel, W., Oschatz, M., von der Lehr, M., Leistner, M., Hao, G., Adelhelm, P., et al. (2014) Direct synthesis of carbide-derived carbon monoliths with hierarchical pore design by hard-templating, Journal of Materials Chemistry A: materials for energy and sustainability, 2(32), pp. 12703-12707. https://doi.org/10.1039/c4ta02260b
APA-Zitierstil: Nickel, W., Oschatz, M., von der Lehr, M., Leistner, M., Hao, G., Adelhelm, P., Müller, P., Smarsly, B., & Kaskel, S. (2014). Direct synthesis of carbide-derived carbon monoliths with hierarchical pore design by hard-templating. Journal of Materials Chemistry A: materials for energy and sustainability. 2(32), 12703-12707. https://doi.org/10.1039/c4ta02260b
