PVP-Oxime-SiO2- Adenine, Antibacterial and Anticorrosive Behavior

Authors

  • Azra Begam Afridi Assistant Professor, Department of Chemistry, K. K. P. G. College, Etawah, Uttar Pradesh, INDIA.

DOI:

https://doi.org/10.31033/ijrasb.9.1.7

Keywords:

Antibacterial Property, Phenolic Resin, Nanohybrid sol-gel, Polyvinylpyrrolidone (PVP)

Abstract

As nanotechnology developed, the chemical architecture of materials was modified. Our study aims to develop nanohybrid sol-gel processes comprising silica particles and a polymer resin, including functionalized carboxylic groups (typically epoxy or phenolic resins). A film of ceramic glass is formed when the metallic plate is coated. It is possible to obtain corrosion-resistant properties by incorporating these particles into polymeric matrixes. Researchers studied infrared spectroscopy and scanning electron microscopy to determine the structure of RF refers to phenolic resin, RFF refers to resin functionalized, and RF-SIO2 and RFF-SIO2 refers to their respective hybrids.

As a result of polarization, Polyvinylpyrrolidone (PVP) appears to act like a mixed-type inhibitor. The charge transfer process is largely responsible for preventing corrosion of the C-steel. Using weight loss as a measure of inhibitory efficacy ranged from 56 to 83% while using electrochemical methods, it was 60 to 90%. PVP adheres to steel and prevents corrosion, according to different tests. The Langmuir adsorption isotherm is found to govern PVP adsorption on the C-steel surface. An explanation for PVP's inhibitory action is suggested. A thermodynamic parameter Eapp is determined by the adsorbed PVP on the C-steel surface, *H, and *S decrease. As inhibitor concentration and temperature increase, so does PVP's inhibition efficiency.

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Published

2022-01-31

How to Cite

Afridi, A. B. . (2022). PVP-Oxime-SiO2- Adenine, Antibacterial and Anticorrosive Behavior. International Journal for Research in Applied Sciences and Biotechnology, 9(1), 77–78. https://doi.org/10.31033/ijrasb.9.1.7

Issue

Vol. 9 No. 1 (2022): January Issue

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