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Accession Number:
ADA579461
Title:
Monolithic Hierarchical Fractal Assemblies of Silica Nanoparticles Cross-Linked with Polynorbornene via ROMP: A Structure-Property Correlation from Molecular to Bulk through Nano
Descriptive Note:
Journal article
Corporate Author:
MISSOURI UNIV OF SCIENCE AND TECHNOLOGY ROLLA
Report Date:
2012-08-23
Pagination or Media Count:
18.0
Abstract:
Monolithic hierarchical fractal assemblies of silica nanoparticles are referred to as aerogels, and despite an impressive collection of attractive macroscopic properties, fragility has been the primary drawback to applications. In that regard, polymer-cross-linked silica aerogels have emerged as strong lightweight nanostructured alternatives rendering new applications unrelated to aerogels before, as in ballistic protection, possible. In polymer-cross-linked aerogels skeletal nanoparticles are connected covalently with a polymer. However, the exact location of the polymer on the elementary structure of silica and, therefore, critical issues, such as how much is enough, have remained ambiguous. To address those issues, the internal nanoporous surfaces of silica wet-gels were modified with norbornene NB by cogelation of tetramethyl orthosilicate TMOS with a newly synthesized derivative of nadic acid Si-NAD N-3-triethoxysilylpropyl-5-norbornene-2,3-dicarboximide. As inferred by both rheological and liquid 29Si NMR data, Si-NAD reacts more slowly than TMOS, yielding a TMOS-derived skeletal silica network surface derivatized with NB via monomer-cluster aggregation. Then, ring-opening metathesis polymerization ROMP of free NB in the nanopores engages surface-bound NB moieties and bridges skeletal nanoparticles either through cross-metathesis or a newly described stitching mechanism. After solvent exchange and drying with supercritical fluid CO2 into aerogels bulk densities in the range 0.27 - 0.63 g cm-3, versus 0.20 g cm-3 of the native network, the bridging nature of the polymer is inferred by a greater than 10-fold increase in mechanical strength and a 4-fold increase in the energy absorption capability relative to the native samples. The crosslinking polymer was freed from silica by treatment with HF, and it was found by GPC that it consists of a long and a short component, with around 400 and 10 monomer units, respectively.
Distribution Statement:
APPROVED FOR PUBLIC RELEASE
