W. Tappert scite author profile

Base-catalyzed silica aerogels are composed of particles with a mean size of about 5 nm, which form a chain-like porous network. Up to now it has been assumed that supercritical drying (SCD) of highly porous gels in autoclaves leaves the structure nearly unchanged. Small-angle X-ray scattering (SAXS) measurements provide evidence that this is only true for the low-temperature CO2 drying process with a critical temperature /',=304.2 K and a critical pressure p,--73.9 × 105 Pa. In the high-temperature methanol process (7", = 512.5 K and p, = 80.9 × 105 Pa) with remaining water and catalyst, however, structural changes are introduced. The SAXS measurements can be explained by a narrowing of the particle-size distribution during the heating period of the autoclave process. In a double-logarithmic representation of the scattered intensity I vs the scattering vector q, intermediate slopes smaller than -4 in the Porod region as well as oscillations in an lq 4 VS q plot appear. On the contrary, SCD hardly affects the particle structure of acid-catalyzed gels and, if the basic solvent is exchanged for pure methanol, of base-catalyzed gels.

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Synthesis and properties of mullite and cordierite aerogels

Heinrich

Tappert

Lenhard

et al. 1994

J Sol-Gel Sci Technol

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Synthesis and characterization of mullite aerogels

Heinrich

Raether

Tappert

et al. 1992

Journal of Non-Crystalline Solids

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W. Tappert

Influence of supercritical drying fluid on structure and properties of organically modified silica aerogels

High-temperature and low-temperature supercritical drying of aerogels – structural investigations with SAXS

Synthesis and properties of mullite and cordierite aerogels

Synthesis and characterization of mullite aerogels

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