Issue 5, 2015

Formation and prevention of fractures in sol–gel-derived thin films

Abstract

Sol–gel-derived thin films play an important role as the functional coatings for various applications that require crack-free films to fully function. However, the fast drying process of a standard sol–gel coating often induces mechanical stresses, which may fracture the thin films. An experimental study on the crack formation in sol–gel-derived silica and organosilica ultrathin (submicron) films is presented. The relationships among the crack density, inter-crack spacing, and film thickness were investigated by combining direct micrograph analysis with spectroscopic ellipsometry. It is found that silica thin films are more prone to fracturing than organosilica films and have a critical film thickness of 300 nm, above which the film fractures. In contrast, the organosilica films can be formed without cracks in the experimentally explored regime of film thickness up to at least 1250 nm. These results confirm that ultrathin organosilica coatings are a robust silica substitute for a wide range of applications.

Graphical abstract: Formation and prevention of fractures in sol–gel-derived thin films

Supplementary files

Article information

Article type
Paper
Submitted
17 Sep 2014
Accepted
20 Nov 2014
First published
24 Nov 2014

Soft Matter, 2015,11, 882-888

Formation and prevention of fractures in sol–gel-derived thin films

E. J. Kappert, D. Pavlenko, J. Malzbender, A. Nijmeijer, N. E. Benes and P. A. Tsai, Soft Matter, 2015, 11, 882 DOI: 10.1039/C4SM02085E

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