Swati Swati scite author profile

Swati Swati

2Publications

3Citation Statements Received

132Citation Statements Given

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Equilibrium properties of inhomogeneous partially-magnetized plasma containing negative ions

Singh¹,

Swati²,

Karkari³

2022

J. Phys. D: Appl. Phys.

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This paper presents an analytical model for inhomogeneous, partially-magnetized electronegative plasma. It is shown that the radial potential of the plasma can be related to the electronegativity parameter α = nv/ne, the positive ion density, and the electron temperature distribution inside the plasma system. Using this expression, the electronegativity parameter has been determined in an oxygen plasma produced by a 13.56 MHz capacitive coupled radio-frequency discharge, and it is shown that the negative ion parameter obtained using this model is in good qualitative agreement with the saturation current ratio technique based on the cylindrical Langmuir probe.

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Bioremediation of hazardous azo dye methyl red by a newly isolated Enterobacter asburiae strain JCM6051 from industrial effluent of Uttarakhand regions

Swati¹,

Singh²

2022

J App Biol biotech

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Azo dyes are often known to be carcinogenic mutagenic and recalcitrant. Dyeing effluents have emerged as a significant cause of water contamination. Dyes influence all living forms, included humans, due to their xenobiotic characteristics and toxicity, as a result, hazardous dyes from colored wastewater must be treated and removed before they are released into the ecosystem. Bioremediation is an innovative, cost-effective, and eco-friendly achievement of biotechnological novelty. Thirty dye-decolorizing indigenous strains were isolated from industrial wastewater in the present investigation from the Kashipur paper industry and SIDCUL industrial area Haridwar using nutrient broth medium amended with 100 mg/l methyl red (MR). Isolation of MR decolorizing bacteria was done by the serial dilution method followed by the spread plate method. A total of 30 isolates were isolated and subjected to primary screening which was done through the tube method. Following a primary screening, 10 potent strains were retained for further evaluation of the efficacy of color removal, designated as MRD2, MRD3, MRD4, MRD15, MRD17, MRD18, MRD19, MRD20, MRD22, and MRD28, which were presumably grouped into 10 genera according to morphology and biochemical assay. The bacterial strain MRD17 outperformed other tested strains via a decolorization assay with 74.28% degradation and decolorization of MR in 72 hours, which was further, identified as Enterobacter asburiae strain JCM6051 by 16S rRNA sequencing and submitted to the NCBI GenBank with accession number MT539179. In addition, the thermodynamic stability of the strain's 16S rRNA sequence was investigated using bioinformatics tools such as mfold and NEB cutter. These findings suggest that bacterial isolates might be useful in the development of an alternative and environmentally acceptable approach for decolorizing and degrading azo dyes from industrial waste.

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Swati Swati

Equilibrium properties of inhomogeneous partially-magnetized plasma containing negative ions

Bioremediation of hazardous azo dye methyl red by a newly isolated Enterobacter asburiae strain JCM6051 from industrial effluent of Uttarakhand regions

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