Development of Thermoelectric Material

This Research presents the innovative development of thermoelectric materials, focusing on enhancing energy conversion efficiency through advanced material engineering.

By optimizing the thermoelectric properties, this research aims to contribute to sustainable energy solutions, offering potential applications in waste heat recovery and renewable energy technologies.

Enhancing the Supercapacitor Performa using 2D materials

This research highlights the advancement of supercapacitor performance through the integration of 2D materials, aimed at revolutionizing energy storage solutions for the future automobile industry.

By leveraging the unique properties of 2D structures, this research seeks to enhance energy density and charging efficiency, paving the way for more sustainable and high-performance electric vehicles.

Augmentation of Porous Carbon Derived From Waste Biomass for Energy Storage Application: Waste to Worth

This Research focuses on the innovative fabrication of flexible type supercapacitor devices using waste biomass aimed for worth energy storage application.

By utilizing the biomass waste converted to worth energy storage, this research have significant contribution to sustainable energy solutions, offering potential applications in biomass waste management and innovative renewable energy technologies.