Preparation and property comparison of ortho, meta, and para autocatalytic phthalonitrile compounds with amino group

Phthalonitrile resins with many striking properties have drawn much attention as potential candidates for use in composite matrices, adhesives, films, and electrical conductors for the last 30 years. However, it is common shortcomings for phthalonitrile monomers to have high-temperature melting point and need extreme conditions to develop binary phthalonitrile/additives composition. Here, three kinds of self-catalyzed phthalonitrile compounds with low melting point were synthesized, whose structures were characterized by Fourier transform infrared (FTIR) spectroscopy and nuclear magnetic resonance. The different cure behaviors, owing to the different positions of catalyzed group on benzene ring, were investigated by differential scanning calorimetry, and cure kinetics parameters were also calculated. The results showed that the meta and para position monomers possessed better reactivity. Melt-processability study by a rheometer indicated that the ortho one owned the largest processing window. Furthermore, the FTIR spectra demonstrated that the cured monomers contained the same structure with a conventional binary phthalonitrile system. All the cured monomers had excellent thermal stability according to thermogravimetric analysis. Mechanical property was determined by dynamic mechanical analysis, and the results showed that the glass transition temperature (represented by the peak temperature of tanδ) was high up to 550°C for all the three cured monomers. Consequently, these autocatalytic phthalonitrile monomers may be good candidates as matrix for high-performance polymeric materials. Copyright © 2011 John Wiley & Sons, Ltd.