Home About us MoEF Contact us Sitemap Tamil Website  
About Envis
Whats New
Research on Microbes
Microbiology Experts
Online Submission
Access Statistics

Site Visitors

blog tracking

Journal of Molecular Structure
Volume 1236, 2021, 130197

A potential catalyst - TiO2/ZnO based chitosan gel beads for the reduction of nitro-aromatic compounds aggregated sodium borohydride and their antimicrobial activity

N.Anusuyaa, C. Pragathiswaranb, J. Violet Maryb

Department of Chemistry, Cauvery College for Women, Tiruchirappalli-18, Affiliated to Bharathidasan University, Tiruchirappalli -620024, Tamilnadu, India.


Metal catalysed reduction of nitro aromatic compounds to aniline derivatives is a convenient and significant synthetic pathway in several applications. TiO2/Zinc oxide has gained much more recent attention as a significant catalyst in the catalytic reduction of nitro aromatic compounds by sodium boro hydride. In this sample, metallic ZnO particles were stabilised by simple green thermal treatment on the chitosan nano composites in water.TiO2/ZnO based Chitosan gel beads exhibited outstanding catalytic behaviour in the hydrogenation of 1-nitro benzene, 2-nitro aniline when NaBH4 was used as the hydrogen source. The tests of catalytic activity were replicated by varying the quantity of the catalyst, the concentration of NaBH4, the quantity of nitro aromatic compounds and the temperature. The decreasing reaction was greatly influenced by the temperature of the reaction medium and concentration of NaBH4. Selected reduction reactions went to completion in just (0.15 min) raised temperatures at 45oC. These conclusions indicate that the newly prepared TiO2/ ZnO based Chitosan gel beads can open up a new perspective on catalytic reduction reactions. Antimicrobial activities of TiO2/Zn nano particles grafted with chitosan have been tested against pathogenic microorganisms such as A. Niger, Bacillus subtilis, Escherichia coli.

Keywords: Chitosan, Titanium dioxide, Sodium borohydride, Catalytic reduction, Antimicrobial activity.

Copyright © 2005 ENVIS Centre ! All rights reserved
This site is optimized for 1024 x 768 screen resolution