silica manufacture and thermal hist

silica manufacture and thermal history as well as on the method used to measure silanol content. A model amorphous silica surface, based on the β-crystallobite form of crystalline silica, has been previously estimated to contain approximately 4.6 silanols/nm2.38,40,41 However, reported alkyl grafting densities have not exceeded 23 nm2, even when using monofunctional silanes, which enable a possible 1:1 substitution of surface silanols.34,38,4246 As a result, a significant number of hydroxyl groups remain on the surface, and though they may be occluded by overlaying material, surface rearrangements induced bycontact with probing liquids could allow them to emerge and/or exert an influence on wetting behavior. Additionally, silane architecture, in reference to fluoroalkyl chain length and degree of functionality (i.e., mono-, di-, or trifunctional), will have an effect on the surface energy and subsequent wetting properties. The successful development and application of fluoroalkylfunctionalized silica particles for surfaces with durable nonwetting characteristics, therefore, depends on achieving an improved understanding of the aforementioned phenomena.
The present paper describes the development and characterization of fluoroalkyl-functionalized nanosized silica particles for use as surface energy modifiers in liquid-repellant coatings. For these experiments, a variety of (1,1,2,2-tetrahydroperfluoroalkyl)chlorosilanes were used to treat both fumed and precipitated silica, with variations in both reaction conditions and silane architecture. The treatments resulted in variable densities of both grafted alkyl chains and residual hydroxyl groups, with optimal grafting densities approaching theoretical maxima. The effects of grafting density, grafted chain length, and residual surface functionality on water vapor uptake, wettability, and suitability for nonwetting polymeric coatings are discussed.