Alliance University, Bangalore - India
Author Profile
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🌱 Early academic pursuits
Sunanda Roy's journey into the world of engineering and materials science began with a solid foundation in chemistry. he earned his b.sc in chemistry from jhargram raj college, west bengal, india, followed by an m.sc in chemistry from vidyasagar university, paschim medinipur. his academic prowess led him to pursue an m.tech in materials science from the prestigious indian institute of technology, kharagpur. his passion for advanced materials culminated in a ph.d. through the singapore-mit alliance program, where he studied at both nanyang technological university, singapore, and the massachusetts institute of technology, usa. this rigorous academic training set the stage for his future contributions in the field of mechanical and materials engineering.
🏆 Professional endeavors
Sunanda roy's professional career is marked by his roles as a visiting professor at inha university, south korea, and an associate professor at alliance university, bangalore. he has also served as an associate researcher at newcastle university, singapore and the uk, showcasing his international academic presence. in addition to his academic roles, he has contributed as a research consultant and has been involved in various prestigious projects, including the nucore grant (ncu-1648-ppe), sponsored by newcastle university, uk. his career reflects a blend of academic excellence and practical expertise, making significant strides in both teaching and research.
🔬 Contributions and research focus
roy’s research portfolio is extensive and diverse, focusing on cutting-edge areas like polymer and rubber nanocomposites, green composites for automobiles, and 3d printing. his work on natural biopolymers like nanocellulose, chitosan, silk, and starch has led to the development of Polymer Composites For Energy Harvesting Devices innovative materials for sustainable coatings, bioscaffolds, and hydrogels. his expertise extends to the synthesis and surface functionalization of nanomaterials and smart materials, with a particular interest in co2 capture and conversion. roy’s research is at the forefront of creating novel coatings, including superhydrophobic, self-healing, and fire-retardant coatings, as well as waste valorization and the development of energy-harvesting devices.
🌍 Accolades and recognition
throughout his career, sunanda roy has received numerous accolades that reflect his commitment to research and innovation. he was ranked in the top 5 as part of a group in the nscc high-performance computation competition held in singapore in 2022. his achievements also include an Polymer Composites For Energy Harvesting Devices adhoc research consultant fellowship at iit roorkee in 2021 and the prestigious singapore mit alliance phd scholarship, which he received for four years from the ministry of singapore. his consistent academic excellence is further highlighted by his success in competitive exams such as the graduate aptitude test in engineering (gate), where he ranked 51st in india, and the national eligibility test for chemical sciences.
💡 Impact and influence
roy's impact on the field of materials science and engineering is profound, particularly through his innovative research in sustainable materials and smart technologies. his work on green composites, sustainable coatings, and energy harvesting devices has significant implications for both environmental sustainability and industrial applications. by integrating advanced materials with practical applications, he has influenced both Polymer Composites For Energy Harvesting Devices academic research and industrial practices, particularly in the areas of 3d printing, waste valorization, and the development of smart materials.
🏅 Legacy and future contributions
Sunanda roy's legacy lies in his dedication to advancing materials science and engineering, particularly through his work on sustainable and smart materials. his ongoing research and teaching efforts continue to shape the next generation of engineers and scientists, ensuring that his contributions will have a lasting impact on the field. as he continues to explore new frontiers in materials science, his work promises to drive further innovations that will address critical challenges in sustainability, energy efficiency, and advanced manufacturing. his future contributions will likely expand the horizons of what is possible in the realm of materials science, solidifying his legacy as a pioneer in the field.
Notable Publications