Abstract
Conducting polymer-based aerogels are considered as the superior composite materials for detection of volatile organic carbons (VOCs) as a result of their exceptional porosity, high surface area, and low density. The present chapter deals with the application of conducting hydrogel for the sensing behavior of VOCs. Different physico-chemical properties such as the effect of aerogel content, time, solution pH, and the effect of maximum VOC adsorption have been explored to achieve optimal aerogel. Moreover, advanced techniques of characterization such as SEM, TEM, TGA-TDA, XRD, AFM, RAMAN, and FTIR analyses have been performed to identify chemical and structural morphology of synthesized aerogel. Aerogel-based nanocomposite materials have been attracted attention because of their applications in various fields. Significant pollutants detection capacity revealed their potential in the detection of VOCs.
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