Jitendra Singh-Engineering-Best Researcher Award
IIT Roorkee-India
Author Profile
- Google Scholar
Early Academic Pursuits
Jitendra Singh embarked on his academic journey with a strong foundation in Chemical Engineering, earning a B.Tech. degree from Sir Chhotu Ram Institute of Engineering and Technology in Meerut, Uttar Pradesh, India. He continued his academic pursuits with a focus on environmental sustainability, completing his M.Tech. in Chemical Engineering from Monad University. His research during this period delved into the conversion of plastic waste into liquid fuel using microwave pyrolysis, showcasing early interest in innovative solutions for environmental challenges.
Educational Background
Jitendra further enriched his academic profile by pursuing a Ph.D. in Polymer & Process Engineering at the prestigious Indian Institute of Technology Roorkee. His doctoral research, conducted under the guidance of Prof. Sujay Chattopadhyay, centered around the synthesis and characterization of macro/microcapsules containing Phase Change Material (PCM) with -OH/-COOH functional groups for thermal energy storage. This research showcased his expertise in various techniques such as SLS, DLS, DSC, TGA, GPC, and more, highlighting a comprehensive skill set in polymer science and material characterization.
Professional Endeavors
Jitendra Singh's professional journey has been marked by diverse experiences. He served as an Assistant Professor at Doon Group of Colleges in Uttarakhand, contributing to the education sector. Later, as Deputy Manager (R&D) at Prism Johnson Limited, he explored the development of antibacterial polymer compounds, showcasing versatility in applying his expertise to industrial settings.
In his current role as a Research Associate at IIT Roorkee, Jitendra is involved in a project sponsored by DRDO. His focus on developing micro/nanoencapsulated Phase Change Materials (m/nPCMs)-water slurry for heat transfer fluid demonstrates a commitment to cutting-edge research with practical applications.
Contributions and Research Focus
Jitendra Singh's significant contributions are evident in his research publications, which span topics such as microencapsulated phase change materials, antimicrobial polymers, and thermal energy storage systems. His work has been published in reputable journals like Carbohydrate Polymers, ACS Energy & Fuels, and Journal of Energy Storage, reflecting the high impact of his research.
His expertise extends to interdisciplinary areas, involving the synthesis of polymers, formulation of eutectic PCMs, and the development of complex antimicrobial polymers. Collaborative projects, such as those involving titanium dioxide nanoparticles and phase-change microcapsules, demonstrate his ability to contribute to diverse research domains.
Accolades and Recognition
Jitendra Singh's academic achievements are complemented by recognition in the form of awards and participation in international conferences. Notably, he presented his research on microencapsulation at IMESD-2018 and CHEMCON-2018, showcasing his work to the academic community.
Impact and Influence
Jitendra's work has a direct impact on fields such as thermal energy storage, antimicrobial materials, and sustainable waste management. His research outputs, including highly cited publications, contribute to the advancement of knowledge and have practical implications for industries such as electronics, textiles, and packaging.
Legacy and Future Contributions
As a dedicated researcher and educator, Jitendra Singh's legacy lies in his commitment to advancing scientific knowledge and finding innovative solutions to contemporary challenges. His ongoing research on m/nPCMs and antimicrobial polymers positions him as a key contributor to the fields of materials science and engineering. Looking ahead, his work is expected to leave a lasting impact on the academic and industrial landscape, inspiring future generations of researchers and practitioners alike.
Notable Publication
- Titanium dioxide nanoparticle-decorated polymer microcapsules enclosing phase change material for thermal energy storage and photocatalysis
- Salt hydrate phase change materials: current state of art and the road ahead
- Protein-polysaccharide based microencapsulated phase change material composites for thermal energy storage
- Copper nanoparticles interlocked phase-change microcapsules for thermal buffering in packaging application
- Facile synthesis of microencapsulated 1-dodecanol (PCM) for thermal energy storage and thermal buffering ability in embedded PVC film