Enhancement of the crosslink density, glass transition temperature, and strength of epoxy resin by using functionalized graphene oxide co-curing agents

Abstract

We synthesized diamine-functionalized graphene oxide, DDS-GO and HMDA-GO, by introducing 4,4'-diaminodiphenyl sulfone (DDS) or hexamethylenediamine (HMDA) into the carboxylic acid groups on graphene oxide (GO) via amide bonds. The introduction of diamines was confirmed by analytical methods such as FT-IR, TG-DTA, XPS, AFM, and optical microscopy. Then, we applied DDS-GO and HMDA-GO as co-curing agents for epoxy (EP) nanocomposites that were prepared by mixing bisphenol-A type EP and DDS curing agent (ca. 21 wt%). Interestingly, when 1.0 wt% of DDS-GO was added to the EP/DDS mixture, the crosslink density (CD) increased from 0.028 to 0.069 mol cm(-3). Due to the higher CD, both the glass transition temperature and tensile strength of the EP/DDS/DDS-GO nanocomposite effectively improved from 160.7 degrees C to 183.4 degrees C and from 87.4 MPa to 110.3 MPa, respectively.