Dr. SUJITH SURENDRAN VIJAYAMMA | THERMAL TRANSPORT VIA NANO LUBRICATION | Best Researcher Award 

POSTDOCTORAL FELLOW, POLITECHNICO DI TORINO GENERAL MOTORS, Italy

Dr. Sujith S. V is a Post-Doctoral Fellow at Politecnico di Torino, Italy, specializing in advanced materials, manufacturing, and nanofluids. He has an extensive academic background, with a Ph.D. in Mechanical Engineering (Manufacturing) from IIT Roorkee, India. Dr. Sujith has collaborated with renowned institutions like Korea University and CNU National University, contributing significantly to research in material science and manufacturing. His work is funded by the National Research Foundation of Korea and the European Research Council. He is passionate about sustainable energy solutions, material optimization, and enhancing thermal and mechanical properties of materials for industrial applications.

Profile

Google Scholar

Strengths for the Award

1. High-Quality Academic Background and International Exposure:
   • Dr. Sujith S V has an impressive academic trajectory, with a Ph.D. from the Indian Institute of Technology Roorkee (IIT Roorkee), India, and substantial international experience. His post-doctoral research at prestigious institutions like Korea University and Politecnico di Torino is noteworthy.
   • He has been consistently funded by prominent government grants such as the Ministry of Human Resource Development Scholarship (India), the National Research Foundation of Korea, and the European Research Council. This indicates the strong recognition of his work by both national and international funding agencies.
2. Prolific Research Contributions:
   • Dr. Sujith has published numerous high-impact papers in reputable journals such as Journal of Molecular Liquids, Journal of Alloys and Compounds, Journal of Tribology, and Materials Today: Proceedings.
   • His work spans diverse, cutting-edge topics in material science, manufacturing, nanotechnology, and lubrication, making significant contributions to areas like nanofluids, in-situ metal matrix composites, and the wear behavior of materials. These publications have garnered substantial citations, indicating the influence of his work in the scientific community.
3. Innovative Research Topics:
   • Dr. Sujith’s research topics are innovative and relevant to current industrial needs, especially in manufacturing, materials science, and green technologies. The evaluation of eco-friendly lubricants, the development of advanced composite materials, and thermal conductivity enhancements demonstrate his commitment to sustainable and practical applications in engineering.
   • His research on the effect of hydrogen embrittlement in hydrogen-fired engines is timely and crucial for the advancement of sustainable energy solutions, particularly in automotive and aerospace applications.
4. Awards and Recognition:
   • Dr. Sujith has received several prestigious awards, including the Binani Gold Medal from the Indian Institute of Metals, highlighting his excellence in research. This recognition attests to his ability to produce high-quality, impactful research.
   • His collaboration with global institutions such as Politecnico di Torino and Dumarey, as well as his role in a European Research Council grant project, further bolsters his credentials for the Best Researcher Award.
5. Collaborative and Multidisciplinary Approach:
   • His extensive collaboration with institutions and industries worldwide showcases his ability to work in multidisciplinary environments. His research spans across materials science, nanotechnology, mechanical engineering, and tribology, addressing both theoretical and practical challenges.
6. Leadership and Mentorship:
   • Dr. Sujith has experience as an assistant professor and tutor, demonstrating his ability to guide and mentor students and younger researchers. His leadership in research teams and projects contributes to the academic and professional development of emerging scholar

Areas for Improvement

1. Broader Outreach and Interdisciplinary Impact:
   • While Dr. Sujith’s work is well-cited within materials science and manufacturing, there may be opportunities to extend the outreach of his research to a wider range of interdisciplinary fields. Exploring collaborations with researchers in fields like sustainability, environmental science, or renewable energy technologies could further expand the impact of his work.
2. Research Focus Diversification:
   • Dr. Sujith’s research has a strong focus on materials science and manufacturing, which is excellent, but it could be beneficial to consider expanding into emerging fields like artificial intelligence, machine learning applications in materials design, or more applied research in the automotive and aerospace industries. This could enhance the broader relevance and technological impact of his work.
3. Public Engagement and Dissemination:
   • While Dr. Sujith has an impressive portfolio of publications, increasing the dissemination of his work through more public-facing platforms or media outlets (e.g., industry conferences, public lectures, or popular science articles) could raise awareness of his research’s real-world applications, especially in sustainable manufacturing and eco-friendly technologies.

Education

Dr. Sujith earned his Ph.D. in Mechanical Engineering (Manufacturing) from the Indian Institute of Technology Roorkee in 2020. Prior to this, he completed his M.Tech (Mechanical) from IIT Roorkee in 2012, funded by the Ministry of Human Resource Development (MHRD), Government of India. His undergraduate degree in Mechanical Engineering was obtained from Sree Chitra Thirunal Government College of Engineering in 2010, where he graduated with First Class honors. Throughout his academic journey, he secured scholarships and fellowships, such as the GATE 2010 scholarship and the Brain Korea 21 fellowship, showcasing his commitment to excellence in research.

Experience

Dr. Sujith has held multiple prestigious positions in academia and research. He served as an Assistant Professor at Pratap University in India from 2012-2013 and later worked as a GATE tutor at Gate Forum. His post-doctoral journey began at Korea University, where he worked as a Research Professor from 2021 to 2023. He is currently a Postdoctoral Fellow at CNU National University (2023-2024). Dr. Sujith has also contributed to several research projects in collaboration with institutions such as Politecnico di Torino and General Motors, Italy, focusing on advanced manufacturing processes and material performance under extreme conditions.

Awards and Honors

Dr. Sujith has received numerous prestigious accolades for his contributions to materials science and engineering. He was awarded the Binani Gold Medal by the Indian Institute of Metals for his outstanding published research on hot-tearing resistance. His Ph.D. and M.Tech studies were both supported by the Ministry of Human Resource Development, Government of India, under the prestigious fellowship programs. He also received a European Research Council grant for a collaborative project on hydrogen embrittlement and hydrogen-fired engines. His research has been widely cited in high-impact journals, underscoring his significant contributions to the field.

Research Focus

Dr. Sujith’s research interests lie in advanced materials, manufacturing processes, and nanotechnology. His work primarily focuses on the fabrication, characterization, and optimization of metal matrix composites (MMCs) and nanofluids. He has also researched the thermophysical properties of nanofluids and their applications in sustainable energy systems and cooling technologies. Other areas of interest include wear behavior of composites, friction stir welding, and the development of eco-friendly lubricants for industrial applications. His ongoing projects include collaboration with leading international research groups to explore hydrogen embrittlement and its impact on engine materials.

 Publications

1. Experimental evaluation on rheological behavior of Al2O3-pure coconut oil nanofluids 🌿🛢️
2. Thermal history analysis and structure-property validation of friction stir welded Al-7079-TiC in-situ metal matrix composites 🔥🔧
3. An investigation into fabrication and characterization of direct reaction synthesized Al-7079-TiC in situ metal matrix composites ⚙️🔬
4. A review on thermophysical property assessment of metal oxide-based nanofluids: industrial perspectives 📚💡
5. Synergistic Effect of In-Situ Al-7075/Al3Ti Metal Matrix Composites Prepared via Stir-Assisted Ultrasonic Melt Processing Under Dynamic Nucleation 🛠️🔬
6. Microstructural characterization and experimental investigations into two body abrasive wear behavior of Al-7079/TiC in-situ metal matrix composites ⚒️🔍
7. Surface Integrity and Flank Wear Response Under Pure Coconut Oil-Al2O3 Nano Minimum Quantity Lubrication Turning of Al-7079/7 wt%-TiC In Situ Metal Matrix 🌱🔩
8. Experimental Evaluation in Thermal Conductivity Enhancement and Heat Transfer Optimization of Eco-Friendly Al2O3–Pure Coconut Oil Based Nano Fluids 🌿💧
9. Modeling of wear process parameters of in-situ RZ5-10wt% TiC Composite using artificial neural network 🤖🛠️
10. Experimental investigations on viscosity and density of eco-friendly MoS2-sesame oil nano-lubricants and its influence on pumping power 🌱⚙️
11. A new hot tearing assessment by using stepped ring core mold and the effect of strontium on the hot-tearing resistance of Al–6 wt% Zn based alloy 🔥🧪

Conclusion

Dr. Sujith S V is undoubtedly a highly deserving candidate for the Best Researcher Award. His academic credentials, research output, and international collaborations place him at the forefront of research in materials science, manufacturing, and nanotechnology. His innovative and impactful research, coupled with significant recognition through awards and funding, further strengthens his candidacy. While there are opportunities for further broadening his research focus and increasing public engagement, these are relatively minor areas for improvement in an otherwise outstanding academic and research career.In conclusion, Dr. Sujith S V’s dedication to advancing scientific knowledge and contributing to sustainable technological development makes him a strong candidate for this prestigious award. His work is poised to have a lasting impact on multiple industries, especially in the context of materials innovation and green technologies.