Ms. Preethi Dhandapani | Material science | Women Researcher Award
Ms. Preethi Dhandapani, Pondicherry University, India
Dr. Preethi Dhandapani is a passionate researcher specializing in Nanoscience and Technology, holding a Ph.D. from Pondicherry University, India. With expertise in hybrid supercapacitors, her work focuses on enhancing energy storage devices through innovative nanocomposite materials. She has authored 9 peer-reviewed journal papers and presented research at national and international conferences. Driven by a commitment to sustainable energy solutions, she excels in material synthesis, characterization techniques, and electrochemical measurements. Dr. Dhandapani’s dedication to advancing technology for a greener future is reflected in her extensive research contributions. 🌱🔬
Publication Profile:
Education:
Dr. Preethi Dhandapani, a dedicated researcher, completed her academic journey with a Ph.D. in Nanoscience and Technology from Pondicherry University, India, in 2019. Her doctoral research focused on Hybrid Supercapacitors, demonstrating expertise in enhancing energy storage. Prior to her Ph.D., she earned an M.Tech. in Nanoscience and Technology (2017-2019) and a B.Tech. in Chemical Engineering (2013-2017), both from Pondicherry University and Pondicherry Engineering College, respectively. Driven by a passion for innovation, her commitment to sustainable solutions is evident in her research journey. 🎓🔬
Research Focus:
Dr. Preethi Dhandapani is a distinguished researcher specializing in the development of advanced materials for energy applications. Her primary research focus lies in the design and fabrication of hybrid electrocatalysts for overall water splitting, as evident in recent publications in Ionics and ES Energy and Environment. Additionally, she has made significant contributions to the field of supercapacitors and electrochemical biosensors, showcasing her versatile expertise. Dr. Dhandapani’s work emphasizes sustainable solutions, exemplified by her exploration of nanohybrid materials and their applications in energy storage and sensing. 🌐⚡
Publication Top Notes:
Recent developments in noble metal–based hybrid electrocatalysts for overall water splitting
NiCo2O4/Ti2NbC2 (double MXene) nanohybrid-based non-enzymatic electrochemical biosensor for the detection of glucose in sweat
FeCo2S4@Carbyne as a newer electrode material for High-Performance supercapacitors and Non-Enzymatic glucose sensors