Sustainable Chemistry for the Environment (Sep 2024)
Biomimetic and ecological perspective towards decolorization of industrial important Azo dyes using bacterial cultures – A review
Abstract
Advanced industrialization requires an enormous amount of water, dyes, and chemicals, and it continuously releases toxic effluents into the environment and water bodies. In textile, paper, leather, and other industries, dyes are the compounds being used to provide color to the substances. Among all of the dyes utilized in the dyeing sector, azo dyes contribute about 60 % of all dyestuffs used globally. Synthetic dyes harm the aesthetic qualities of water resources by elevating COD (Chemical oxygen demand) and BOD (Biological oxygen demand), toxic substances, turbidity, hindering photosynthesis, stifling plant development, contaminating the food chain, inducing recalcitrance, and accumulation, and effectively stimulating toxicity, carcinogenicity, as well as mutagenicity. To minimize negative impacts on the surroundings, people, and natural water bodies, wastewater comprising dye pollutants must be removed effectively through eco-friendly technology. As a result, treatment of these textile effluents is required before they are eliminated into the surroundings. Physical, chemical, physio-chemical, and biological methods are among those used for treating textile wastewater. Biological methods, such as treatment with bacteria, bacterial enzymes, fungi, and plants, were used due to their environment-friendly and cost-effective method. The classification of dyes and their degradation mechanism by bacteria are addressed in this paper.
