Harsh Jagad
About Harsh Jagad
Harsh Jagad is a Cell Design Engineer with expertise in Li-ion battery technology. He has worked at Murata in Japan since 2018 and holds degrees in Chemical Engineering and Metallurgical Engineering.
Work at Murata
Harsh Jagad has been employed at Murata since 2018, where he serves as a Cell Design Engineer. His role involves conducting research and development on Li-ion batteries, with a focus on improving their performance and efficiency. He has been involved in various projects, including the development of a fast charging protocol for these batteries. His work also includes conducting bifurcation analysis of electrode resistance, which is crucial for optimizing battery design.
Education and Expertise
Harsh Jagad holds a Bachelor of Technology (B.Tech.) in Chemical Engineering from the National University of Singapore, where he studied for 11 months in 2015. He also earned a Bachelor of Technology (B.Tech.) in Metallurgical Engineering and Material Science from the Indian Institute of Technology, Bombay, completing his studies from 2013 to 2017. His educational background provides a strong foundation in materials science and engineering principles, which he applies in his current role.
Background
Harsh Jagad has a background in engineering with a specialization in materials science. His academic journey includes significant studies in both Chemical Engineering and Metallurgical Engineering. This diverse educational experience has equipped him with the knowledge necessary to address challenges in battery technology, particularly in the design and optimization of Li-ion batteries.
Achievements
During his tenure at Murata, Harsh Jagad has contributed to advancements in battery technology, particularly through detailed material studies focusing on the Cathode and Anode of Li-ion batteries. His work on developing a fast charging protocol has implications for improving battery performance in various applications. Additionally, his analysis of electrode resistance plays a vital role in enhancing battery efficiency.