Undergraduate Thesis - Bioremediation Potential of Heavy Metal-Tolerant Bacteria Isolate R5: Performed systematic microbial isolation and molecular identification (16S rRNA) of a heavy metal–tolerant bacterium from contaminated soil. Designed and validated controlled growth and biosorption assays under standardized laboratory conditions to define tolerance limits for Pb and Cd. Demonstrated high-performance lead adsorption (21.27 mg/g at 1,500 ppm within 48 hours)
Supported clinical bacteriology diagnostics under standardized laboratory protocols,
including specimen verification, culture identification, antimicrobial susceptibility
testing, and both conventional (Gram staining, selective media, biochemical tests, disk diffusion) and automated analysis using VITEK 2 Compact.
Academic Presentations : Microbial characterization of UHT milk quality deterioration during storage.
Academic Presentations : Quantitative analysis of bacterial enzyme production and activity profiling.
Undergraduate Thesis - Bioremediation Potential of Heavy Metal-Tolerant
Bacteria Isolate R5: Performed systematic microbial isolation and molecular
identification (16S rRNA) of a heavy metal–tolerant bacterium from contaminated
soil. Designed and validated controlled growth and biosorption assays under
standardized laboratory conditions to define tolerance limits for Pb and Cd.
Demonstrated high-performance lead adsorption (21.27 mg/g at 1,500 ppm within
48 hours)