Nylon 610/nylon 610-grafted graphene oxide (nylon 610/GO-g-nylon 610) composites were fabricated using acyl chloride-functionalized graphene oxide by In-Situ interfacial polymerization.OCCTransparent nylon-Transparent nylon_PA610_PA612_PA1010_PA121

GO-g-nylon 610 was synthesized by the condensation reaction between the acyl chloride groups of GO and the amino groups at the nylon 610 chains during the In-Situ polymerization.OCCTransparent nylon-Transparent nylon_PA610_PA612_PA1010_PA121

Nylon 610/GO composites without grafting nylon 610 onto GO were also prepared to investigate the influence of grafting nylon 610 on the interfacial adhesion between GO and the nylon 610 matrix.OCCTransparent nylon-Transparent nylon_PA610_PA612_PA1010_PA121

The thermal properties of the nylon 610/GO-g-nylon 610 composites were enhanced with increasing GO-g-nylon 610 content in the nylon 610 matrix.OCCTransparent nylon-Transparent nylon_PA610_PA612_PA1010_PA121

The degradation temperature and thermal conductivity of the nylon 610/GO-g-nylon 610-10 composite were increased to 72.2 °C and 36.9%, respectively, compared with those of pure nylon 610.OCCTransparent nylon-Transparent nylon_PA610_PA612_PA1010_PA121

The crystallinity of the nylon 610/GO-g-nylon 610-10 composite was significantly lower than that of pure nylon 610 due to the hindered mobility of the nylon 610 chains by the strong interfacial adhesion between the GO-g-nylon 610 and the nylon 610 matrix.OCCTransparent nylon-Transparent nylon_PA610_PA612_PA1010_PA121