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A Novel Route for Preparation of Transparent and Superhydrophobic Silica Aerogels

Published online by Cambridge University Press:  31 January 2011

Guo-you Wu
Affiliation:
gywu0420@xmu.edu.cn, xiamen university, Materials Science & Engineering, College of Materials, xiamen, China
Xuan Cheng
Affiliation:
xcheng@xmu.edu.cn, xiamen university, Materials Science & Engineering, College of Materials, xiamen, China
Yu-xi Yu
Affiliation:
yu_heart@xmu.edu.cn, xiamen university, Materials Science & Engineering, College of Materials, xiamen, China
Ying Zhang
Affiliation:
yzh@xmu.edu.cn, xiamen university, Materials Science & Engineering, College of Materials, xiamen, China
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Abstract

Silica aerogels were synthesized via sol-gel processing followed by a two-step surface modification and ambient pressure drying, using methyltrimethoxysilane (MTMS) and trimethylchlorosilane (TMCS)/ethanol/n-hexane as surface modification agents. The transparent silica aerogels possessed the porosities, densities and specific surface areas in the range of 87.7–92.3%, 0.27–0.17 g·cm-3 and 852–1005 m2·g-1, respectively. The SEM and HRTEM analysis revealed the three-dimensional nanoporous structure of the silica aerogels. The presence of –CH3 functional groups on the surface of silica particles as indicated by the FTIR spectra was further confirmed by two visible exothermic peaks at 310 and 450–500 °C from the DTA curve. In addition, the silica aerogels were superhydrophobic with the contact angle as high as 160°.

Type
Research Article
Copyright
Copyright © Materials Research Society 2010

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References

1 Husing, N. and Schubert, U., Angew. Chem. Int. Ed. 37, 22 (1998).Google Scholar
2 Yoldas, B. E., Annen, M.J., and Bostaph, J., Chem. Mater. 12, 2475 (2000).Google Scholar
3 Dunn, B. C., Cole, P., Covington, D., Webster, M. C., Pugmire, R. J., Ernst, R. D., Eyring, E. M., Shah, N., and Huffman, G. P., Applied Catalysis A: General 278, 233 (2005).Google Scholar
4 Hrubesh, L W, Coronado, P R, and Satcher, J H. J. Non-Cryst. Solids 285, 328 (2001).Google Scholar
5 Smirnova, I., Suttiruengwong, S., and Arlt, W.. J. Non-Cryst. Solids 350, 54 (2004).Google Scholar
6 Bhagat, S. D., Kam, Y. H., Suh, K. H., and Yeo, J.G., Micropor. Mesopor. Mat. 961, 237 (2006).Google Scholar
7 Schwertfeger, F., Frank, D., and Schimidt, M., J. Non-Cryst. Solids 225, 21 (1998).Google Scholar
8 Lee, C. J., Kim, G. S., and Hyun, S. H., J. Mater. Sci. 37, 2237 (2002).Google Scholar
9 Rao, A. V., Pajonk, G. M., Bhagat, S. D., and Barboux, P., J. Non-Cryst. Solids 350, 216 (2004).Google Scholar
10 Hwang, S. W., Jung, H. H., Hyun, S. H., and Ahn, Y. S., J. Sol-Gel Sci. Techn. 41, 139 (2007).Google Scholar
11 Kim, C. E., Yoon, J. S., and Hwang, H. J., J. Sol-Gel Sci. Technol. 49, 47 (2009).Google Scholar
12 Rao, A. V. and Bhagat, S. D., Solid State Sciences 6, 945 (2004).Google Scholar
13 Wei, T. Y., Chang, T. F., Lu, S. Y., and Chang, Y. C., J. Am. Ceram. Soc. 90, 2003 (2007).Google Scholar
14 Al-Oweini, R., El-Rassy, H., J. Mol. Struct. 919, 140 (2009).Google Scholar
15 Günzler, H. and Gremlich, H. U., IR Spectroscopy: An Introduction, (Wiley-VCH Publishers, Berlin, 2002) p. 178183.Google Scholar
16 Rao, A. V., Kulkarni, M. M., Amalkar, D. P., and Seth, T., J. Non-Cryst. Solids 330, 187 (2003).Google Scholar
17 Jeong, A. Y., Goo, S. M., and Kim, D. P., J. Sol-Gel Sci. Technol. 19, 483 (2000).Google Scholar
18 Rao, A. V., Kulkarni, M. M., Amalnerkar, D. P., and Seth, T., Appl. Surf. Sci. 206, 262 (2003).Google Scholar
19 Rao, A. V. and Kalesh, R. R., J. Sol-Gel Sci. Technol. 30, 141 (2004).Google Scholar
20 Rao, A. V., Rao, A. P., and Kulkarni, M. M., J. Non-Cryst. Solids 350, 224 (2004).Google Scholar
21 Bhagat, S. D., Kam, Y. H., Suh, K. H., Ahn, Y. S., Yeo, J. G., and Han, J. H., Micropor. Mesopor. Mat. 112, 504 (2008).Google Scholar