Exploring Synthesis, Characterization, and Applications of Conducting Polypyrrole and Metal Oxide Composites: A Multifaceted Investigation

Authors

  • Jyoti, Kusum Lata, and Dr. Pallavi Bhardwaj

Keywords:

Polypyrrole, Characterisation, Electrochemical, polymerization, transmission electron microscopy (TEM).

Abstract

This research aims to investigate the synthesis, characterization, and potential applications of conducting polypyrrole and its composites, with a specific focus on metal oxide combinations. The primary objective is to understand the intricate structural features of these materials and explore their applicability in diverse technological domains.The methodology involves a systematic approach, commencing with the synthesis of polypyrrole, metal oxides, and their composites through established methods. Material selection is crucial, considering the delicate balance between polypyrrole's inherent electrical conductivity and the desirable properties of composite materials. Subsequently, the materials undergo comprehensive characterization using various analytical techniques such as FTIR spectroscopy, UV spectroscopy, XRD, TEM, and EIS, providing detailed insights into their molecular and structural attributes.The findings reveal a nuanced understanding of the synthesized materials. FTIR spectroscopy exposes distinctive chemical bonds and functional groups, UV spectroscopy highlights electronic transitions, XRD unveils crystalline structures, TEM provides high-resolution images of nanoparticle morphology, and EIS assesses electrical properties. The data collectively contributes to a comprehensive comprehension of the materials' characteristics.This research not only establishes a solid foundation for the tailored synthesis and characterization of conducting polypyrrole and its composites but also explores their potential applications in sensors, energy storage devices, and electronic systems. The holistic approach underscores the transformative potential of these materials across diverse technological frontiers.

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Published

2023-11-30

Issue

Section

Articles