Mr Manjunatha L S, Kuvempu University, India
Mr. Manjunatha L S is a dedicated researcher specializing in the synthesis of nanoparticles, electrochemistry, and sensor development. With over 3 years of experience, he has published extensively in reputable journals and holds a Master’s degree in Industrial Chemistry from Kuvempu University. Currently pursuing his PhD under the guidance of Prof. B E Kumara Swamy, his work focuses on modifying electrode sensors for various substances, aiming to enhance analytical techniques in electrochemistry.
Publication Profile
Orcid
Education
Mr. Manjunatha L S completed his Master’s in Industrial Chemistry from Kuvempu University in 2020. He is currently a PhD Research Scholar at the same university, under the mentorship of Prof. B E Kumara Swamy. His academic journey has equipped him with comprehensive knowledge in analytical and spectroscopic techniques, essential for his research in electrochemistry and sensor development.
Experience
With 3 years of research experience, Mr. Manjunatha L S has honed his skills in conducting visual inspections, laboratory tests, and data analysis to detect and address quality issues. His expertise includes handling laboratory instruments, performing titrations, and utilizing spectroscopic and chromatographic techniques. He collaborates effectively with interdisciplinary teams to ensure product quality and efficiency in the food and beverages industry. His proactive approach in implementing corrective actions has proven instrumental in preventing quality discrepancies and improving processes.
Research focus
Mr. Manjunatha L S’s research focuses on the synthesis and application of nanoparticle-modified electrodes in electrochemical sensing. His work aims to enhance the sensitivity and selectivity of sensors for detecting various compounds such as drugs and environmental contaminants. Through voltammetric studies, he investigates the electrochemical behavior of substances like sulfadiazine, paracetamol, and bisphenol-A. His contributions to the field include developing modified electrodes using materials like cadmium oxide and zinc oxide, which play crucial roles in improving analytical capabilities and advancing sensor technology.
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