Dr. Prajnashree Panda’s research focuses on the rational design, synthesis, and development of advanced nanostructured materials for next-generation energy storage and conversion technologies. Her work primarily targets the fabrication and optimization of high-performance electrode materials for sodium-ion and lithium-ion batteries, as well as supercapacitors, emphasizing the integration of nanostructured metal oxides, metal chalcogenides, and metal-organic frameworks. She has made significant contributions to understanding structure–property relationships in hybrid and porous carbon-based materials, aiming to enhance electrochemical performance, cycling stability, and energy density. Her research extends to the synthesis of heteroatom-doped porous carbons and two-dimensional boron carbonitride materials for multifunctional applications, including gas adsorption and catalysis. Dr. Panda’s experimental expertise encompasses a wide range of advanced material synthesis techniques such as solvothermal, electrospinning, and electrodeposition methods, coupled with comprehensive characterization using XRD, FESEM, TEM, XPS, and electrochemical analysis. Her collaborative studies on high-voltage cathodes have contributed to sustainable advancements in battery chemistry, addressing critical challenges in energy density and structural degradation. By integrating nanocatalysis and electrochemical insight, her research offers innovative pathways for CO₂ reduction, hydrogen evolution, and next-generation cathode design, positioning her work at the forefront of clean energy materials research