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Poly(methyl methacrylate)‐grafted cellulose nanocrystals: One‐step synthesis, nanocomposite preparation, and characterization

Stephanie A. KedziorDepartment of Chemical Engineering McMaster University 1280 Main St. West Hamilton ON, L8S 4L7 CanadaLexa GrahamDepartment of Chemical Engineering McMaster University 1280 Main St. West Hamilton ON, L8S 4L7 CanadaCarolyn MoorlagXerox Research Centre of Canada 2660 Speakman Drive Mississauga ON, L5K 2L1 CanadaBrynn M. DooleyXerox Research Centre of Canada 2660 Speakman Drive Mississauga ON, L5K 2L1 CanadaEmily D. CranstonDepartment of Chemical Engineering McMaster University 1280 Main St. West Hamilton ON, L8S 4L7 Canada
2016en
ABI

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Abstract Cellulose nanocrystals (CNCs) are ideal reinforcing agents for polymer nanocomposites because they are lightweight and nano‐sized with a large aspect ratio and high elastic modulus. To overcome the poor compatibility of hydrophilic CNCs in non‐polar composite matrices, we grafted poly(methyl methacrylate) (PMMA) from the surface of CNCs using an aqueous, one‐pot, free radical polymerization method with ceric ammonium nitrate as the initiator. The hybrid nanoparticles were characterized by CP/MAS NMR, X‐ray photoelectron spectroscopy, infrared spectroscopy, contact angle, thermogravimetric analysis, X‐ray diffraction, and atomic force microscopy. Spectroscopy demonstrates that 0.11 g/g (11 wt %) PMMA is grafted from the CNC surface, giving PMMA‐ g ‐CNCs, which are similar in size and crystallinity to unmodified CNCs but have an onset of thermal degradation 45 °C lower. Nanocomposites were prepared by compounding unmodified CNCs and PMMA‐ g ‐CNCs (0.0025–0.02 g/g (0.25–2 wt %) loading) with PMMA using melt mixing and wet ball milling. CNCs improved the performance of melt‐mixed nanocomposites at 0.02 g/g (2 wt %) loading compared to the PMMA control, while lower loadings of CNCs and all loadings of PMMA‐ g ‐CNCs did not. The difference in Young's modulus between unmodified CNC and polymer‐grafted CNC composites was generally insignificant. Overall, ball‐milled composites had inferior mechanical and rheological properties compared to melt‐mixed composites. Scanning electron microscopy showed aggregation in the samples with CNCs, but more pronounced aggregation with PMMA ‐g‐ CNCs. Despite improving interfacial compatibility between the nanoparticles and the matrix, the effect of PMMA‐ g ‐CNC aggregation and decreased thermal stability dominated the composite performance.

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