New synthetic method of poly-hidroxyurethanes from triacylglycerol using catalysts or triacylmelamine to inhibition side reactions

Abstract

Due to increase of CO2 emission by anthropogenic action, it is necessary its storage and using in new synthetic routes. There is a possibility of using CO2 and epoxides to obtain organic cyclic carbonates. Compounds with more than one carbonate group can be synthesized from epoxidized vegetable oils. Therefore, the use of renewable materials is necessary such as macaw vegetable oil (Brazilian biomass) to substitute soybean or linseed vegetable oils (triacylglycerol). The carbonated triacylglycerol can react with diamines to obtain poly-hidroxyurethanes. However, a side reaction between amines and glyceride ester occurs, which spoils the crosslinking between polymeric structures increasing the reaction time. The project aims a remedy this problem; then, two alternatives are purposed. The first alternative consists to use selective catalysts to activate the cyclic carbonate. Hence, two catalyst classes will be selected such as tertiary amines and metallic complexes. The second alternative is a synthesis of triacylmelamine (TAM) from triacylglycerol and melamine, the respective compound has three amide groups instead of three ester group, which will inhibit the side reaction. The triacylglycerol, its derivatives, the TAM, and polymers will be characterized by Simultaneous Thermogravimetric/Derivative Thermogravimetry-Differential Thermal Analysis (TG/DTG-DTA), Differential Scanning Calorimetry (DSC), Dynamic Mechanical Analysis (DMA), Mid-Infrared Spectroscopy (MIR), Ultraviolet and Visible Light Spectroscopy (UV-Vis), Nuclear Magnetic Resonance (1H-NMR and 13C-NMR). The self-healing and shape memory proprieties will be tested in these polymers, they will be used as electrodes to detect organic molecules. (AU)