An improved method for preparing monolithic aerogels based on methyltrimethoxysilane at ambient pressure Part I: Process development and macrostructures of the aerogels

The images and bulk densities of the MTMS derived aerogels prepared at different gelation and ageing temperatures. [Display omitted] ► An improved method for fabricating MTMS derived aerogels at ambient pressure. ► Effect of key processing conditions on alcogel formation and aerogel’s macrostructure...

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Published inMicroporous and mesoporous materials Vol. 148; no. 1; pp. 145 - 151
Main Authors Xu, Bi, Cai, Jackie Y., Finn, Niall, Cai, Zaisheng
Format Journal Article
LanguageEnglish
Published San Diego, CA Elsevier Inc 15.01.2012
Elsevier
Subjects
Aerogel
Ambient pressure
Bulk density
Chemistry
Colloidal state and disperse state
Exact sciences and technology
General and physical chemistry
Methyltrimethoxysilane
Porous materials
Volume shrinkage
Bulk density
Methyltrimethoxysilane
Aerogel
Ambient pressure
Volume shrinkage
Modification
Density
Macrostructure
Porous material
Precursor
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Summary:The images and bulk densities of the MTMS derived aerogels prepared at different gelation and ageing temperatures. [Display omitted] ► An improved method for fabricating MTMS derived aerogels at ambient pressure. ► Effect of key processing conditions on alcogel formation and aerogel’s macrostructure. ► Monolithic aerogels with bulk densities 0.065 ∼ 0.076 g/cm 3 at MeOH/MTMS = 27 to 36. In this paper, we introduced an improved method for producing methyltrimethoxysilane (MTMS) based aerogels at ambient pressure. The method developed is able to produce monolithic aerogels with low bulk densities over a range of the precursor concentrations at ambient pressure without the need for any solvent exchange and surface modification. This has been achieved through specifically tailored processing conditions according to the MeOH/MTMS molar ratios used. The effect of the key processing parameters on alcogel formation and macrostructures of the aerogels has been systematically investigated for achieving minimum volume shrinkage and bulk density. The specific process developed for MTMS based aerogel has not been reported in previous literature, and it is of significance in improving the practical feasibility of the aerogel fabrication.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2011.08.012