The roles of density and oxygen concentration on the structure of silica aerogel: Insight from an atomistic study
GL Zhang and XY Shi and SJ Qin and GQ Qin and HY Wu and YF Duan and GT Zhang, JOURNAL OF NON-CRYSTALLINE SOLIDS, 556, 120666 (2021).
DOI: 10.1016/j.jnoncrysol.2021.120666
The structure of silica aerogels has strong dependence on the densit( )rho and oxygen concentration. In this study, molecular dynamic simulations are performed to study the roles of rho and O/Si molar ratio (OSMR) on the structure of silica aerogels. The average pore size and porosity of silica aerogels increase with decreasing rho. The OSMR influences the structure by changing the forming ability of tenuous ligaments in silica aerogels. The forming ability of tenuous ligaments decreases with decreasing OSMR from 2.0 to 1.9; then increases with further decreasing OSMR to 1.5. The increasing tenuous ligaments in silica aerogel leads to the dispersed ligaments and small average pore size. This study explains the correlation between the rho, OSMR and the structure of silica aerogel, which can further guide to tune the structure of silica aerogels in experiments.
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