Deepesh Gopalakrishnan

• Build research cells and perform electrochemical and chemical characterizations for lithium-ion battery materials to support enhanced anode materials development goals. • Involve in a detailed understanding of the relationships between material properties, cell design and electrochemical and other performance parameters for high energy density, cycle stable battery characteristics. • Conduct post mortem studies and failure analysis. Work with team to discuss, brainstorm and strategize next steps towards improved product development.

• Conduct cutting-edge research pertaining to electrochemical energy storage and conversion. • Material characterization and technology validation including testing, data analysis, and reporting. • Manage and develop pertinent experimental techniques and instrumentation. • Train research assistants/ graduate students. • Assist in developing new grant proposals focused on electrochemical energy storage and conversion.

PhD student @ WSU. Working on 2D materials for energy harvesting and storage. Aim: Electrolyte formulation, design and development for long lived Li- metal based batteries • Developed novel Ionic Liquid Crystalline based semi-solid electrolyte for long lived Li metal based batteries through dendrite supression. • Synthesized and characterized various Ionic Liquids, Ionic Liquid Crystals towards efficient battery systems. • Identified and proved electrocatalytic driven Lithium-sulfur chemistry using various electrocatalytic materials. • Developed a facile synthesis route for NbS2 nanosheets and evaluated its electrocatalytic hydrogen eveolution capability and Li-polysulfide adsorption capability.

• Active role in scouting for exciting battery research and technologies. • Material characterization and technology validation including performance and abuse testing, data analysis, and reporting. • Battery lab activities such as assisting in sample preparation, pouch cell/ coin cell fabrication, inventory, and planning. • Create key internal technical and organizational documentation including customer updates and technology briefs. • Active role in implementing advanced battery analytic features by closely working with analytic software platform (Voltaiq) team to ensure the best battery solutions. • Support process organization and data management.

Working on 2D materials and their energy storage applications • Synthesis of 2D nanosheet varieties through different methods (including electrochemical and physicochemical methods) and its implementation in energy storage devices like Battery, Supercapacitor. • Developed a novel technique to synthesize 2D quantum dots / nanosheets in bulk quantities. • Evaluated electrochemical hydrogen evolution reaction capability of 2D electrocatslyts. • Involved in Na ion, Li ion battery fabrication, testing and analysis.

Nanocluster synthesis and its application in water purification