A Facile Synthesis and molecular characterization of Electroactive Polyaniline Nanocomposites materials based on Sliver Embedded Poly Aniline copolymers for application in automobile industries

In-situ chemical oxidative polymerization was used to develop a new series of functional electroactive nanocomposites based on HCl doped and silver embedded poly (aniline-co-3-chloroaniline). In order to investigate these copolymer nanocomposites, FTIR, UV-visible spectroscopy, X-ray diffraction (XRD), scanning electron microscopy (SEM), and a conventional four probe conductivity approach were all used. The developed copolymer has excellent solubility in widely used organic solvents like DMF, THF, and NMP. The spectral value at 341nm is related to π-π* electronic transition of benzenoid ring and peak at 624 nm is attributed to n-π* electronic transition of quinoid ring. The band at 1300 cm-1 has been accredited to the combination of C-N in quinoid and benzenoid sequences. X-ray diffraction (XRD) reveals the crystalline nature of copolymer. Surface morphological studies exhibit nanoneedle like appearance with average particle size of 150-300 nm. Applications of Composites based on PANI possess excellent thermal and EMR shielding efficiency characteristics; thus, they can be applied in for use in mobile phones, military utensils, heat-emitting electronic devices, automobiles, and radars, Polyaniline (PANI) also has high potentiality as super capacitor electrode material and in solid state batteries. During lightning, composites made of polymers, such as polyaniline, polypyrrole, and polythiophene, have the capacity to absorb and transfer extremely high voltage. In order to safeguard cars during strong storms, hence these kinds of materials ought would possess good applications in automobile industries.