Journal
ACS APPLIED MATERIALS & INTERFACES
Volume 2, Issue 3, Pages 800-807Publisher
AMER CHEMICAL SOC
DOI: 10.1021/am9008067
Keywords
phase separation; multiwall carbon nanotubes; percolation; morphology; electrical conductivity; coalescence suppression
Funding
- Onderzoeksfonds K.U. Leuven
- Research Foundation-Flanders, FWO
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Conducting polymeric materials with stable phase microstructures have a range of potential applications. In this work, it is investigated whether phase separation in polymer blends can be used as a tool to create well dispersed conducting filler rich domains in 3D with controlled morphology, potentially resulting in more effective percolation. The effect of amine functionalized multiwall carbon nanotubes (NH(2)-MWCNTs) on the thermally induced phase separation processes in poly[(alpha-methyl styrene)-co-acrylonitrile]/poly(methyl methacrylate) (P alpha MSAN/PMMA) blends was monitored by melt rheology, conductivity spectroscopy, and microscopic techniques. Electron microscopic images revealed that the phase separation resulted in a heterogeneous distribution of NH(2)-MWCNTs in the blends. The migration of NH(2)-MWCNTs is controlled by the thermodynamic forces that drive phase separation and led to an increase in their local concentration in a specific phase resulting in percolative network-like structure. Conductivity spectroscopy measurements demonstrated that the blends with 2 wt % NH(2)-MWCNTs that showed insulating properties for a one phasic system revealed highly conducting material in the melt state (two phasic) as a result of phase separation. By quenching this morphology, a highly conducting material with controlled dispersion of MWCNTs can be achieved. Furthermore, the role of NH(2)-MWCNTs in stabilizing the PMMA droplets against flow induced coalescence in 85/15 P alpha MSAN/PMMA blends was also established for the first time. It was observed that at a typical loading of 1.25 wt. % NH(2)-MWCNTs the coalescence was completely suppressed on a practical time scale.
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