Amrish Varshan G.S.- Master of Science
- Research Scholar at Saveetha University
Amrish Varshan G.S.
- Master of Science
- Research Scholar at Saveetha University
About
7
Publications
262
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22
Citations
Introduction
Versatile Microbiologist and Researcher with extensive expertise in nanotechnology, molecular biology, and toxicology. Proficient in a variety of microbiological techniques, including microbial isolation and identification, antimicrobial susceptibility testing, microbial growth kinetics, biofilm analysis, and preservation techniques.
Skills and Expertise
Current institution
Publications
Publications (7)
This study delves into the nanotechnology idea for the formulation of natural-based anti-quorum-sensing agents, particularly Candida albicans, a significant fungal pathogen. This research highlights how they may be generated and improved over traditional anti-quorum-sensing agents. The development of a metallic or green anti-quorum-sensing agent en...
Among the diverse nanomaterials, polymeric nanocomposites incorporating metallic nanoparticles have recently garnered significant attention due to their high efficacy, biocompatibility, and biodegradability. This study presents a novel approach to synthesizing a nano-selenium polymeric bionanocomposite, created from biocompatible polymers using in...
![Chemical extraction method of chitosan from fungal biomass [29]](publication/382914009/figure/fig2/AS:11431281288699968@1730862873302/Chemical-extraction-method-of-chitosan-from-fungal-biomass-29_Q320.jpg)
![Schematic representation of chitosan extraction from fungal organism [30]](publication/382914009/figure/fig3/AS:11431281288755268@1730862873595/Schematic-representation-of-chitosan-extraction-from-fungal-organism-30_Q320.jpg)
![Green synthesis method of chitosan from fungal biomass [38]](publication/382914009/figure/fig4/AS:11431281288755269@1730862873919/Green-synthesis-method-of-chitosan-from-fungal-biomass-38_Q320.jpg)
Nanoscale materials derived from natural polymers have attracted considerable attention in various scientific and technological fields due to their impressive qualities such as high efficacy, biodegradability, and particularly, biocompatibility. Chitosan, among these biopolymer-based nanomaterials, plays a crucial role owing to its unique structura...
Azo dye degradation utilizing microorganisms has acquired significance over the last decades, owing to its beneficial properties such as rapid degradation, economic feasibility, and eco‐friendly. In this work, azo dyes (Methyl red and methylene blue) degradation efficacy using indigenous bacterial strains Pseudomonas sp. and Bacillus sp. as free an...
