Nanocomposites
have attracted more attention due to their extensive
applications. However, it is still a huge technological challenge
in fabrication of transparent hybrid materials because of nanoparticle
aggregation resulting from their high specific surface energies. In
this paper polymerizable molecule was controlled chemically grafted
onto ZnS nanoparticles to obtain polymerizable-group-capped nanoparticles
that can copolymerize with a mixture of acrylic monomers of N,N-dimethylacrylamide (DMA) and
2-hydroxyethyl methacrylate (HEMA) or glycidyl methacrylate (GMA)
or methyl methacrylate (MMA) to prepare transparent high refractive
index (RI) nanocomposite hydrogels. The dispersion homogeneity of
the nanoparticles in the nanocomposites was studied by dynamic mechanical
thermal analysis (DTMA), transmission electron microscopy (TEM), scanning
electron microscopy (SEM), and energy dispersive X-ray mapping analysis
(EDX). Moreover, the nanocomposites were characterized by transmittance,
mechanical properties, and refractive index (RI). The results showed
that grafted amount of polymerizable group on the nanoparticle surface
influences the cross-link density and microphase structure of the
resultant nanocomposites, leading to different transmittance and mechanical
properties. The RI of hydrated and dry nanocomposites can be regulated
to a peak value of 1.652 and 1.751, respectively, by a simple adjustment
of ZnS content in the nanocomposites. Our approach was also proved
to be effective in preparing DMA-free transparent nanocomposites with
high RI of 1.824 by copolymerizing between polymerizable-group-capped
ZnS and single monomer of HEMA or GMA or MMA.
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