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Abstract In this work, a novel interpenetrating system including amorphous polystyrene/polyurethane and multiwall carbon nanotubes (PS/PU-MWCNTs) was in-situ constructed by the homogeneous bulk polymerization. The ultralow percolation threshold (about 0.01 wt%)… Click to show full abstract
Abstract In this work, a novel interpenetrating system including amorphous polystyrene/polyurethane and multiwall carbon nanotubes (PS/PU-MWCNTs) was in-situ constructed by the homogeneous bulk polymerization. The ultralow percolation threshold (about 0.01 wt%) and high electrical conductivity were achieved owing to the unique conductive networks of MWCNTs in the interconnected “island chain” of PU. Surprisingly, the high positive temperature coefficient (PTC) effect of resistivity of amorphous PS/PU-MWCNTs composites, which was caused by the polymer segment motion, was achieved, such as PTC intensity of six orders of magnitude, fantastic reproducibility and favorable mechanical properties. Finally, this work provided a new promising in the development of excellent PTC materials.
Journal Title: Reactive and Functional Polymers
Year Published: 2020
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