Abstract

The research focuses on the comparative analysis of synthesis, characterization, and thermal properties of substituted N-Arylmaleimides, providing an in-depth exploration of their homopolymerization and copolymerization behaviors. Substituted N-Arylmaleimides are synthesized through carefully controlled reactions to develop a range of monomers with unique functional groups. These monomers are then subjected to homopolymerization and copolymerization processes to evaluate their polymerization efficiency and thermal stability. Advanced spectral analysis techniques, including Infrared (IR) spectroscopy, Nuclear Magnetic Resonance (NMR), and Fourier-Transform Infrared (FT-IR) spectroscopy, are employed to confirm the molecular structure and composition of the synthesized compounds. The study also investigates key properties such as solubility, elemental composition, and molecular weight, providing a comprehensive understanding of the physicochemical attributes of these materials. The inorganic chemistry has been highly enriched by the continuing development in the area of coordination chemistry over the past few decades. This is due to the versatile applications of coordination compounds in different areas such as bioinorganic, medicinal chemistry, bio-mimetic and catalysis. Thus, taking these factors into consideration a novel attempt is made to carryout studies on the synthesis, characterization and biological activities of transition metal complexes. This comparative approach highlights the significance of substituent effects on polymer performance, paving the way for innovative material development in various industrial applications.