Abstract
To avoid lengthy solvent exchange and surface modification processes and reduce the production cost, monolithic silica aerogels were prepared rapidly (reduced from regular three days to 5h) under ambient pressure using methyltrimethoxysilane (MTMS, precursor) and water (solvent). For preparing aerogels in aqueous phase, the phase separation caused by the immiscibility between hydrophobic oligomers and water should be avoided. This problem has been solved by using an efficient surfactant, cetyltrimethylammonium bromide (CTAB). The porous morphology and different properties of the aerogels were observed changing along the content of CTAB. It was found that the macroporous morphology evolves from coarsened structure to continuous structure, and finally to elongated column, showing decreased structural size. Based on bulk density measurement, SEM and TG-DSC, it is known that the aerogels with 0.02g CTAB (molar ratio CTAB/MTMS=1.5×10−2) show the lowest density (0.079g/cm3), highest porosity (96.1%), and thermostability up to approximately 490°C.
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