Modulation of microporous/mesoporous structures in self-templated cobalt-silica

Finite control of pore size distributions is a highly desired attribute when producing porous materials. While many methodologies strive to produce such materials through one-pot strategies, oftentimes the pore structure requires post-treatment modification. In this study, modulation of pore size in...

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Bibliographic Details
Published in:Scientific reports 2015-01, Vol.5 (1), p.7970-7970, Article 7970
Main Authors: Martens, Dana L., Wang, David K., Motuzas, Julius, Smart, Simon, da Costa, João C. Diniz
Format: Article
Language:English
Subjects:
147/143
639/301/1023/1024
639/638/298/916
Cobalt
Condensation
Humanities and Social Sciences
multidisciplinary
Pore size
Porous materials
Science
Silica
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Summary:Finite control of pore size distributions is a highly desired attribute when producing porous materials. While many methodologies strive to produce such materials through one-pot strategies, oftentimes the pore structure requires post-treatment modification. In this study, modulation of pore size in cobalt-silica systems was investigated by a novel, non-destructive, self-templated method. These systems were produced from two cobalt-containing silica starting materials which differed by extent of condensation. These starting materials, sol (SG′) and xerogel (XG′), were mixed with pure silica sol to produce materials containing 5–40 mol% Co. The resultant SG-series materials exhibited typical attributes for cobalt-silica systems: mesoporous characteristics developed at high cobalt concentrations, coinciding with Co 3 O 4 formation; whereas, in the XG-series materials, these mesoporous characteristics were extensively suppressed. Based on an examination of the resultant materials a mechanism describing the pore size formation and modulation of the two systems was proposed. Pore size modulation in the XG-series was caused, in part, by the cobalt source acting as an autogenous template for the condensation of the silica network. These domains could be modified when wetted, allowing for the infiltration and subsequent condensation of silica oligomers into the pre-formed, mesoporous cages, leading to a reduction in the mesoporous content of the final product.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep07970