Dr. SELVA KUMAR | Chemical Engineering | Best Researcher Award

Published on 24/06/202524/06/2025 by Chemistry Awards

Dr. SELVA KUMAR | Chemical Engineering | Best Researcher Award

Dr. SELVA KUMAR , Chemical Engineering ,Professor & Dean [R&D] at Roever Engineering College, India

Dr. S. Selvakumar is a seasoned academician and researcher with over three decades of experience in Mechanical and Manufacturing Engineering. Currently serving as Professor & Dean (R&D) at Roever Engineering College, he is known for his dedicated contribution to academic leadership, research advancement, and curriculum innovation. A Ph.D. graduate from Anna University, Chennai, he has been actively involved in mentoring students and spearheading funded research initiatives. Dr. Selvakumar has submitted multiple proposals to reputed bodies like AICTE and SERB and received commendable evaluations. His interests lie in modernizing engineering education, process optimization, and advanced research tools. Through his visionary guidance, he fosters research culture among faculty and students. He is widely respected for his expertise in mechanical systems, his commitment to academia, and his drive to incorporate technological innovations into teaching and development practices.

Professional Profile :

Google Scholar

Orcid

Scopus

Summary of Suitability for Award:

Dr. S. Selvakumar stands as a highly meritorious candidate for the “Best Researcher Award” owing to his extensive academic foundation, impactful research leadership, and significant contributions to mechanical and manufacturing engineering. With over three decades of academic experience and a Ph.D. from Anna University, he has continuously demonstrated excellence in engineering education and research. His involvement in nationally recognized projects under AICTE-AQIS (MODROBS & FDP) and SERB-funded seminars reflects a strong commitment to innovation, modernization, and capacity building in technical education. Dr. Selvakumar has actively mentored numerous student-driven research initiatives and published multiple papers focusing on optimization, composite materials, and smart manufacturing systems. His work bridges theory and practical application, aligning well with the goals of sustainable, industry-relevant research. He also plays a pivotal role in advancing institutional research culture as Dean (R&D) at Roever Engineering College. In view of his consistent research output, national project recognitions, and deep-rooted commitment to academic excellence, Dr. S. Selvakumar is highly suitable for the “Best Researcher Award”. His efforts exemplify the values of innovation, leadership, and impact that this award seeks to honor.

🎓Education:

Dr. Selvakumar’s academic journey reflects his dedication to continuous learning and excellence. He earned his Ph.D. in Mechanical Engineering from Anna University, Chennai, in 2015 with a highly commended thesis. He holds a Master’s degree (M.E.) in Manufacturing Engineering (2007), graduating with First Class (74%). He is also an Associate Member of the Institution of Engineers (India), A.M.I.E. from IEI Kolkata, received in 2002, which underscores his professional commitment. His technical foundation was built at Seshasayee Institute of Technology, Trichy, where he completed his Diploma in Mechanical Engineering (D.M.E.) in 1990 with 77% (First Class). He began his academic path with S.S.L.C. from Government High School, Veppanthattai, in 1987, scoring an impressive 83%. This strong educational background has equipped him with a thorough grounding in theory and practice, allowing him to guide research and innovation in mechanical and manufacturing domains.

🏢Work Experience:

With a rich professional background spanning over 30 years, Dr. Selvakumar has held pivotal roles in academia and research. He currently serves as Professor and Dean (Research & Development) at Roever Engineering College, where he plays a key role in shaping the institution’s research agenda. His responsibilities include fostering interdisciplinary research, overseeing funded project proposals, organizing FDPs and seminars, and mentoring faculty and students. His expertise in manufacturing engineering, curriculum design, and student innovation has significantly contributed to the institution’s growth. Dr. Selvakumar is known for his dynamic leadership in securing project approvals from national funding agencies such as AICTE and SERB. His focus on integrating industry-oriented learning with academic training has made him a vital contributor to the academic and technical ecosystem. Through his continued commitment, he bridges the gap between education, research, and industry demands.

🏅Awards:

Dr. Selvakumar’s academic efforts and research initiatives have been consistently recognized at institutional and national levels. He has received commendation for his Ph.D. thesis from Anna University, highlighting the quality and depth of his scholarly work. His proposal titled “Modernization and Removal of Obsolescence” (MODROBS) was evaluated by AICTE experts under the AQIS scheme (Application ID: 1-3566263236). Another project, an AICTE Faculty Development Programme (FDP) proposal (ID: 1-3570728216), was also successfully evaluated. In addition, he submitted a SERB Seminar Scheme (Ref: SSY/2017/001308) titled “Advanced Research Methods & Tools” and secured funding support of ₹70,000, reflecting national-level recognition of his academic initiatives. These accolades underscore his contribution to enhancing academic infrastructure, teaching pedagogy, and research training in engineering institutions.

🔬Research Focus:

Dr. Selvakumar’s research interests span across manufacturing engineering, process optimization, advanced machining technologies, and modernization in engineering education. He is deeply invested in exploring cutting-edge research tools, modern CAD/CAM integration, and smart manufacturing practices. His projects aim to bridge academic research with industry requirements, thereby fostering real-time solutions for manufacturing challenges. Through MODROBS and FDP proposals, he has sought to upgrade technical infrastructure and research facilities for undergraduate and postgraduate students. His seminar proposals reflect his commitment to advancing research methodology and analytical capabilities in engineering academia. He emphasizes innovation-driven learning, encourages project-based knowledge dissemination, and works toward continuous process improvement. His focus also includes mentoring young researchers, promoting interdisciplinary collaborations, and integrating digital tools in mechanical and manufacturing studies. His approach is both progressive and application-oriented, preparing students and faculty to meet emerging industrial and technological demands.

Publication Top Notes:

1. Machinability Analysis and Optimization in Micro turning on tool wear for Titanium Alloy

Citations: 26

2. Investigation and optimization of machining through hole by abrasive water jet machining in AA6063/Bagasseash/TiN hybrid composites

Citations: 12

3. A novel approach for optimization to verify RSM model by using multi-objective genetic algorithm (MOGA)

Citations: 11

4. Experimental analysis and mathematical modeling of optimized cutting parameters in microturning

Citations: 10

5. Analysis and optimisation of machining parameters in micro turning using RSM

Citations: 8

6. Designing and conducting experiments for optimization of satisfactory cutting conditions in micro-turning by using titanium alloy

Citations: 5

7. Implementation of response surface methodology in finish turning on titanium alloy Gr. 2

Citations: 3

8. Machining Analysis of the Polytetrafluoroethylene (Teflon) at High Feed

9. Comprehensive Review of Microstructural and Mechanical Behavior of Stainless Steels by shape welding Additive Manufacturing

Dr. Yan Xue | Environmental Chemistry | Sustainable Chemistry Award

Published on 14/02/202514/02/2025 by Chemistry Awards

Dr. Yan Xue | Environmental Chemistry | Sustainable Chemistry Award

Dr. Yan Xue , Nanjing Agricultural University , China

Dr. Yan Xue is a researcher at Nanjing Agricultural University, specializing in environmental nanomaterials. His research focuses on the high-value utilization of green composite nanomaterials derived from modified graphene/graphene-like biochar-based materials. Dr. Xue explores real-time environmental monitoring, remediation of complex environmental conditions, and the development of energy storage devices such as supercapacitors and ionic batteries. His work aligns with global sustainability goals, emphasizing waste-to-waste treatment strategies and eco-friendly material applications. He has contributed significantly to the fields of electrocatalysis, intelligent energy management, and lignocellulose conversion, publishing multiple high-impact research papers.

Professional Profile :

Orcid

Summary of Suitability for Award:

Dr. Yan Xue is an exceptional candidate for the “Sustainable Chemistry Award” due to his pioneering research in environmental nanomaterials and green chemistry applications. His work focuses on the high-value utilization of biomass-derived functional materials, aligning perfectly with the principles of sustainability, circular economy, and green chemistry. He has contributed significantly to waste-to-waste treatment strategies, converting agricultural and industrial biomass into high-performance materials for environmental remediation, electrochemical sensing, and energy storage applications. His research also supports carbon neutrality and sustainable energy solutions, making a strong impact on global environmental goals. Dr. Yan Xue’s contributions to sustainable chemistry, nanotechnology, and green energy solutions demonstrate scientific excellence and real-world impact. His research addresses critical environmental challenges through eco-friendly material synthesis, pollutant remediation, and sustainable energy storage. Given his innovative approach, interdisciplinary expertise, and commitment to green chemistry, he is a highly suitable candidate for the “Sustainable Chemistry Award”.

🎓Education:

Dr. Yan Xue pursued his academic journey with a strong focus on environmental sciences and materials chemistry. He obtained his doctoral degree from Nanjing Agricultural University, where he specialized in graphene-based biochar nanomaterials. His education was rooted in green chemistry, electrochemical energy storage, and sustainable material applications. His thesis emphasized the modification of biochar-derived nanomaterials for enhanced environmental performance and energy conversion efficiency. With a deep interest in sustainable chemistry and intelligent energy systems, Dr. Xue’s academic training laid a solid foundation for his ongoing research in eco-friendly functional materials.

🏢Work Experience:

Dr. Yan Xue has extensive research experience in high-value biomass utilization, electrocatalysis, and green energy applications. His expertise includes preparing and functionalizing graphene-based nanomaterials for energy storage and environmental monitoring. He has worked on tunable biochar modifications for real-time sensing and remediation of pollutants. Additionally, Dr. Xue has contributed to the development of bio-based energy devices, including supercapacitors and ionic batteries. His interdisciplinary approach integrates materials chemistry, nanotechnology, and environmental sciences to develop innovative solutions for sustainable energy and pollution control.

🏅Awards:

Dr. Yan Xue has been recognized for his contributions to green materials research and environmental nanotechnology. His work in waste-derived nanomaterials has received accolades in academic and industrial settings. He has been cited in high-impact journals, reflecting his significant contributions to sustainable chemistry and advanced materials. His research in biochar-based nanomaterials has positioned him among emerging leaders in eco-friendly energy storage solutions.

🔬Research Focus:

Dr. Yan Xue’s research primarily focuses on environmental nanomaterials, emphasizing the high-value utilization of biomass-derived functional materials for sustainable applications. His work explores the synthesis, modification, and application of graphene/graphene-like biochar-based nanomaterials to address critical environmental challenges. He specializes in the development of advanced electrochemical sensors, pollutant remediation systems, and green energy storage solutions, integrating principles of electrocatalysis, intelligent energy management, and nanotechnology. Dr. Xue is particularly interested in waste-to-waste treatment strategies, converting agricultural and industrial biomass into high-performance nanomaterials for supercapacitors, ionic batteries, and pollutant detection systems. His research also extends to functional nanocomposites, such as metallic-like boron-doped biochar, porphyrin-modified nanocatalysts, and hybrid carbon nanostructures, for enhanced electrocatalytic performance and environmental sensing. By merging materials chemistry, environmental science, and nanotechnology, Dr. Xue contributes to the development of eco-friendly, cost-effective, and scalable solutions for sustainable energy and pollution control.

Publication Top Notes:

Enhancing capacitive performance through solvent-coupled two-step carbonization of cotton stalk biochar with tunable melamine doping: Deciphering the redox activity of pyrrolic nitrogen