Mr. Arnab Sarka: Nanoelectronics: Best Researcher Award
Education 📚:
Ph.D. in Electronics and Communication Technology (ECT) from Gauhati University. Thesis submitted on 20.09.2023. M.Sc. in Micro Electronics and Adv. Communication from Gauhati University. CGPA: 8.75 (82.5%), 1st Rank. B.Sc. from Abhayapuri College, Gauhati University, 2011 (55.1%). 10+2 from Abhayeshwari H.S. & M.P. School, Assam Higher Secondary Education Council, 2007 (44.2%). 10th from Abhayeshwari H.S. & M.P. School, Secondary Education Board of Assam, 2004 (51.2%).
The impact of her research is evident in citation metrics and indices from Google Scholar:
- Cited by: All – 6.
- Citations – 6.
- h-index – 2.
- Documents – 5.
A prolific researcher making meaningful contributions to the academic world!
Research Focus 🎓🔬
Dr. Arnab Sarkar specializes in cutting-edge research at the intersection of nanomaterials and environmental science. His work encompasses the development of optimized dip coating approaches for fabricating optical thin films using metallic, dielectric, and semiconducting nanomaterials. 🌐 His investigations extend to assessing pollution removal efficiencies, employing various remediation techniques for petroleum oily sludge, showcasing a commitment to sustainable solutions for environmental challenges. 🛢️ Additionally, Dr. Sarkar delves into the realm of nanomaterial applications for aquatic contamination sensing and remediation, with a specific emphasis on ZnO nanostructures for environmental applications. 🌊 His research culminates in ultrasensitive fluorescence detection methodologies, exemplified by his work on Fe3+ ions using functionalized Ag/SiO2/SiO2 core–shell nanocomposites. 🌟
- An Optimized Dip Coating Approach for Metallic, Dielectric, and Semiconducting Nanomaterial-Based Optical Thin Film Fabrication
- Assessing pollution removal efficiencies of some selected parameters by applying different remediation techniques for petroleum oily sludge
- Nanomaterials for aquatic contamination sensing and remediation
- ZNO nanostructures for environmental applications
- Ultrasensitive fluorescence detection of Fe 3+ ions using fluorescein isothiocyanate functionalized Ag/SiO 2 /SiO 2 core–shell nanocomposites