Abstract
This study presents a straightforward route to fabricate robust poly(vinyl alcohol) (PVA)/polyethyleneimine-functionalized graphene (PVA/rGO/PEI) composite films by combining of surface modification, reduction and composite preparation. Branched polyethylenimine (PEI), as an effective reducing agent and surface modifier of graphene oxide (GO), has been presented to yield PEI-functionalized graphene in PVA aqueous solution. The obtained PVA/PEI-functionalized graphene composites exhibited significant improvements in strength and toughness. At a PEI: GO ratio of 0.5:1, the tensile strength and Young's modulus of PVA/rGO/0.5PEI composite increased by 55.8% and 43.1%, respectively from pure PVA, and the elongation at break also increased from 77.1% (for PVA/GO composite) to 147.3%. With regard to simultaneous strengthening and toughening effects, the strong interfacial interactions produced by the mechanism of hydrogen bonding between amine of PEI and hydroxyl groups of PVA play a key role, which not only increase load transfer efficiency but accelerate crystallization of PVA.
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