Dr. Jayeeta Banerjee | Bioremediation of heavy metal using microbes | Best Innovation Award

Assistant Professsor at Lovely Professional University, India

Dr. Jayeeta Banerjee is an accomplished academician and researcher specializing in environmental biotechnology and medical laboratory sciences. Currently serving as an Assistant Professor at Lovely Professional University, she is known for her innovative contributions to microbial bioremediation, particularly in heavy metal detoxification using Saccharomyces cerevisiae. Her dedication to interdisciplinary research, curriculum development, and student mentorship underscores her holistic approach to higher education and sustainable science.

Profile

Scholar

Education

Dr. Banerjee completed her academic training at premier institutions under the University of Calcutta. Her early undergraduate research focused on comparative physiological and cardiovascular studies across regions, followed by postgraduate work examining the biochemical and hematological effects of arsenic exposure. She earned her Ph.D. with a dissertation titled “Studies on Biosorption of Ni(II) from Aqueous Solution Using Microorganism,” where she developed the highly Ni(II)-resistant strain S. cerevisiae AJ208 for wastewater treatment. Her education laid a strong foundation for applied microbial research in environmental health.

Experience

With over 15 years of teaching and research experience, Dr. Banerjee began her academic career as a physiology teacher for undergraduate students in a government-recognized institution from 2009 to 2018. Since 2025, she has held the role of Assistant Professor at Lovely Professional University, teaching subjects such as Endocrinology, Immunology, Molecular Biology, and Cellular Pathology. She also oversees curriculum design, research publication, classroom engagement, and postgraduate supervision. Her dual focus on pedagogy and laboratory research has made her a respected figure in both academic and environmental science communities.

Research Interest

Dr. Banerjee’s research revolves around microbial bioremediation, specifically the use of S. cerevisiae AJ208 for biosorption of nickel from contaminated water. Her work encompasses optimizing nutritional and physical conditions for biosorption efficiency, desorption techniques, eco-toxicity assessments, and model-based experimental design. She is also interested in sustainable waste management and the molecular mechanisms behind metal ion detoxification, aiming to offer scalable solutions for industrial wastewater treatment and environmental restoration.

Awards

Her academic and scientific contributions have earned her numerous accolades, including the Best Researcher Award by SHEN in 2022, the Incredible Researcher of the World award in 2022, the Young Scientist Award from the South Asian Education Awards in 2023, and the Icon-SWM Excellence Award in 2019. She has also received certificates of appreciation from environmental societies for her organizational and technical contributions to global conferences.

Publications

Dr. Banerjee has authored multiple impactful publications in reputed international journals, including:

1. Development of Ni(II) resistant S. cerevisiae and its application – Chemosphere, 2022, IF: 8.8.
2. Effect of complex nutrients on Ni(II) biosorption – Int. J. of Phytoremediation, 2022, IF: 4.003.
3. Biosorption with nutritive elements and GA modelling – Dispersion Science & Technology, 2024, IF: 2.057.
4. Green removal of Ni(II) and phytotoxicity study – Journal of Water Process Engineering, 2024, IF: 7.0.
5. Application of metabolic inhibitors in Ni(II) removal – Brazilian Journal of Development, 2024, IF: 3.9.
6. Ni(II) biosorption using dead yeast cells – Journal of Dispersion Science and Technology, 2024.
7. Growth medium optimization for yeast strain AJ208 – Communicated.

These articles have contributed to broader scientific discussions on eco-friendly detoxification and are frequently cited in environmental microbiology and bioprocess engineering literature.

Conclusion

Dr. Jayeeta Banerjee exemplifies the ideal blend of research-driven innovation, academic leadership, and environmental responsibility. Through her pioneering studies on biosorption, conference participation, and student mentorship, she continues to influence sustainable practices in waste management and medical biosciences. Her work not only meets scientific excellence but also contributes directly to environmental policy and industrial applications, making her a strong candidate for national and international recognition.