Mingsheng Wang | Biological Sciences | Best Researcher Award

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Dr. Mingsheng Wang | Biological Sciences | Best Researcher Award

Lecturer at Tarim University, China

Mingsheng Wang is a Lecturer at the College of Mechanical Electrification Engineering, Tarim University, China. His research primarily focuses on motor fault diagnosis, with expertise in vibration noise analysis, finite element modeling, and deep learning applications. He holds a Ph.D. in Mechanical Engineering from the prestigious Beijing Institute of Technology, where he developed innovative methodologies for fault diagnosis in permanent magnet synchronous motors (PMSMs). Mingsheng has contributed to national engineering projects and authored impactful publications in journals like IEEE Transactions on Power Electronics and Sensors. With advanced technical skills in tools like Matlab/Simulink, Maxwell, and LabView, he has been instrumental in building motor test benches and implementing fault diagnosis algorithms. His work aligns with advancing the reliability of electric motors, making significant contributions to the development of fault detection technologies in electric vehicles.

Professional Profile

Education

Mingsheng Wang completed his Ph.D. in Mechanical Engineering from Beijing Institute of Technology in 2024. His doctoral studies emphasized motor fault diagnostics and the application of deep learning in fault detection. He earned his Master’s degree in Agricultural Mechanization Engineering from Hebei Agricultural University in 2015, where he developed foundational expertise in agricultural mechanical systems. Additionally, he holds a Bachelor’s degree in Measurement and Control Technology and Instrument from the same institution, awarded in 2012. Throughout his academic journey, Mingsheng honed his technical and research skills, building a solid foundation in diagnostics, multi-physics field co-simulations, and reliability engineering.

Professional Experience

Mingsheng Wang has recently joined Tarim University as a Lecturer in the College of Mechanical Electrification Engineering. His role involves teaching and research in advanced motor fault diagnosis and electrification technologies. He has extensive research experience from his Ph.D. program, contributing to nationally significant projects such as the development of motor fault diagnosis systems and vibration noise analysis for silicon carbide systems. His prior work also includes evaluating reliability technologies for integrated controllers and studying the thermal performance of motor controllers. Mingsheng’s expertise spans practical and theoretical domains, where he has contributed to designing motor test benches, implementing data acquisition systems, and validating algorithms for intelligent fault diagnosis.

Research Interests

Mingsheng Wang’s research focuses on motor fault diagnosis, particularly in permanent magnet synchronous motors (PMSMs). His interests include vibration noise analysis, multi-physics field co-simulations, and the application of deep learning techniques in diagnostics. He has worked extensively on fault detection in electric motors, including bearing fault diagnosis and inter-turn short circuit faults, with applications in electric vehicles and advanced mechanical systems. His research aligns with enhancing motor reliability and optimizing system performance, addressing critical challenges in energy efficiency and system reliability. His recent projects delve into coupling fault information with motor vibration and current signals to develop intelligent diagnostic solutions.

Research Skills

Mingsheng Wang is skilled in designing and debugging motor fault test benches and building robust data acquisition systems. He has advanced expertise in finite element modeling, multi-physics field co-simulations, and deep learning applications in fault diagnostics. Proficient in tools like Matlab/Simulink, Maxwell, and LabView, he excels in analyzing co-simulation models and applying advanced algorithms such as convolutional neural networks and transfer learning for fault detection. His skills extend to vibration and noise signal processing, system pre-processing, and experimental setup, making him adept at bridging the gap between theoretical research and practical implementation.

Awards and Honors

While Mingsheng Wang’s CV does not explicitly mention awards, his achievements include significant contributions to national research projects and publishing in high-impact journals. His work in motor fault diagnosis, particularly his innovative approaches using deep learning and multi-physics analysis, has been well-recognized within academic circles. Publications in journals like Sensors and IEEE Transactions on Power Electronics highlight his research excellence and innovative contributions to the field of mechanical engineering and diagnostics. These accomplishments underline his standing as an emerging researcher poised for recognition in his field.

Conclusion

Mingsheng Wang is a strong candidate for the Best Researcher Award, particularly in the category of emerging researchers with significant contributions to motor fault diagnosis and reliability engineering. His technical skills, impactful research projects, and publications in high-ranking journals establish his excellence in the field. However, to further solidify his claim to this award, he could work on gaining more professional experience, building a broader research profile, and enhancing his international collaborations and outreach efforts. In conclusion, he is highly suitable for recognition in his research niche and could be an excellent recipient of this award, especially as an early-career researcher poised to make significant future contributions.

Publication Top Notes

  1. Intelligent Fault Diagnosis of Inter-Turn Short Circuit Faults in PMSMs for Agricultural Machinery Based on Data Fusion and Bayesian Optimization
    Authors: Mingsheng Wang, Wuxuan Lai, Hong Zhang, 扬 刘 (Yang Liu), Qiang Song
    Year: 2024

 

Bardia Hejazi | Materials Science | Best Researcher Award

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Dr. Bardia Hejazi | Materials Science | Best Researcher Award

Postdoc at Federal Institute for Materials Research and Testing, Germany

Bardia Hejazi is a dedicated physicist currently serving as a scientist at the Bundesanstalt für Materialforschung und -prüfung (BAM) in Berlin, Germany. With a rich background in fluid dynamics, particle interactions, and X-ray imaging, he specializes in failure analysis of 3D printed materials, particularly titanium components. His research journey has taken him from his undergraduate studies in Iran to prestigious institutions, including a postdoctoral role at the Max Planck Institute for Dynamics and Self-Organization. Here, he focused on the intersection of fluid dynamics and biology, particularly the flight dynamics of honeybees in varying environmental conditions. Hejazi’s multidisciplinary approach not only contributes to advancements in materials science but also provides insights into complex biological systems. His contributions to both academia and outreach highlight his commitment to scientific communication and mentorship, fostering a diverse scientific community. His active participation in research, teaching, and organizational roles showcases his ability to bridge theoretical knowledge with practical applications, positioning him as a promising candidate for recognition as a leading researcher in his field.

Professional Profile

Education

Bardia Hejazi completed his Ph.D. in Physics at Wesleyan University in January 2021, where he conducted research on particle-turbulence interactions under the guidance of Professor Greg A. Voth. His doctoral thesis significantly advanced the understanding of how particles behave in turbulent flows, contributing to the broader field of fluid dynamics. Prior to his Ph.D., Hejazi earned a Bachelor of Science in Physics from the Sharif University of Technology in Tehran, Iran, in June 2015. This strong educational foundation equipped him with essential theoretical knowledge and practical skills in experimental and computational physics. His education also includes a visiting research experience at Harvard University’s Center for Nanoscale Systems, where he developed particle manufacturing techniques using advanced 3D printing technologies. Throughout his academic journey, Hejazi has demonstrated a commitment to interdisciplinary research, leveraging his expertise in physics to explore applications in material science, biology, and environmental studies. His solid educational background is complemented by numerous research experiences, allowing him to contribute meaningfully to diverse scientific inquiries.

Professional Experience

Bardia Hejazi has cultivated a diverse professional experience, beginning as an undergraduate researcher at Sharif University of Technology and continuing through various prestigious research positions. Currently, he serves as a scientist at BAM in Berlin, where he focuses on the failure analysis of 3D printed titanium components, utilizing advanced X-ray computed tomography imaging techniques. Before this role, Hejazi completed a postdoctoral fellowship at the Max Planck Institute for Dynamics and Self-Organization, engaging in innovative studies on honeybee flight dynamics and the effects of atmospheric turbulence. His prior experiences include conducting field measurements of cloud dynamics and investigating the effectiveness of face masks in mitigating disease transmission. Additionally, Hejazi’s research at Wesleyan University involved tracking flexible particles in fluid flows and studying their dynamics, further enhancing his expertise in fluid dynamics and experimental physics. He has also contributed to undergraduate education as an instructor and teaching assistant, where he applied his knowledge to nurture the next generation of physicists. This combination of research and teaching roles underscores his commitment to advancing scientific knowledge and education.

Research Interests

Bardia Hejazi’s research interests span a range of interdisciplinary topics within physics, particularly focusing on fluid dynamics, material science, and biological systems. His current research involves utilizing X-ray imaging techniques for failure analysis of 3D printed titanium components, exploring the intricate relationships between material properties and structural integrity. Hejazi’s postdoctoral research at the Max Planck Institute allowed him to investigate honeybee flight dynamics in windy environments, revealing critical insights into how turbulence affects biological behavior. He is also interested in aerosol dynamics and their implications for public health, particularly in understanding how airborne particles contribute to disease transmission in indoor environments. Throughout his academic career, Hejazi has engaged in computational studies, developing algorithms to track particle deformations in fluid flows, and exploring the interactions of flexible particles with turbulence. His diverse research interests not only reflect his expertise in physics but also emphasize his commitment to addressing complex scientific challenges that span multiple disciplines. By bridging the gap between theoretical concepts and practical applications, Hejazi aims to contribute to advancements in both fundamental science and real-world issues.

Research Skills

Bardia Hejazi possesses a robust skill set that encompasses a wide array of research methodologies and technical proficiencies. His expertise in fluid dynamics and particle physics is complemented by practical skills in X-ray computed tomography and image analysis, enabling him to perform detailed investigations into material properties and behaviors. Hejazi has developed advanced coding skills for image analysis, quantifying crack features in 3D printed components, and facilitating in-situ experiments. His research experience is supported by a solid foundation in computational physics, allowing him to simulate complex systems and analyze dynamic behaviors of particles in various environments. Additionally, Hejazi has hands-on experience with particle manufacturing techniques, particularly using nano-scale 3D printing, enhancing his ability to innovate within experimental setups. His strong analytical capabilities are evidenced by his numerous publications in high-impact journals, showcasing his ability to communicate complex findings effectively. Furthermore, Hejazi has demonstrated leadership and mentorship skills through his roles in teaching and outreach, reflecting his commitment to fostering collaboration and diversity within the scientific community. His interdisciplinary skills position him as a valuable contributor to research initiatives across various domains.

Awards and Honors

Bardia Hejazi has been recognized for his academic and research excellence through several prestigious awards and honors throughout his career. Notably, he received the 1st Prize at the national scientific competition of the Iranian Society of Acoustics and Vibrations in December 2013, showcasing his early commitment to scientific inquiry and innovation. Hejazi was also selected to represent Iran as a member of the national team in the 22nd International Young Physicists Tournament held in Tianjin, China, in July 2009, reflecting his strong foundation in physics during his formative years. His educational achievements, including a Ph.D. from Wesleyan University, further underscore his dedication to advancing knowledge in the field of physics. Additionally, Hejazi has successfully secured funding from the Max Planck Society for high-speed camera purchases to support his research on fluid dynamics, indicating recognition of the significance of his work. These accolades not only highlight Hejazi’s individual achievements but also demonstrate his ongoing commitment to contributing to the scientific community and fostering the advancement of research in physics and its applications.

Conclusion

Bardia Hejazi demonstrates an impressive profile for the Best Researcher Award, characterized by a combination of innovative research, technical expertise, and leadership in the scientific community. His contributions have significant implications for both academic and practical applications, particularly in materials science and public health. By addressing the identified areas for improvement, he can further enhance his impact and visibility within the research community. Overall, Bardia is a strong candidate for the award, reflecting both current achievements and future potential.

Publications Top Notes

  • An upper bound on one-to-one exposure to infectious human respiratory particles
    • Authors: G. Bagheri, B. Thiede, B. Hejazi, O. Schlenczek, E. Bodenschatz
    • Year: 2021
    • Citations: 151
  • Lessons for preparedness and reasons for concern from the early COVID-19 epidemic in Iran
    • Authors: M. Ghafari, B. Hejazi, A. Karshenas, S. Dascalu, A. Kadvidar, M.A. Khosravi, …
    • Year: 2021
    • Citations: 35
  • Using deformable particles for single-particle measurements of velocity gradient tensors
    • Authors: B. Hejazi, M. Krellenstein, G.A. Voth
    • Year: 2019
    • Citations: 17
  • Emergent scar lines in chaotic advection of passive directors
    • Authors: B. Hejazi, B. Mehlig, G.A. Voth
    • Year: 2017
    • Citations: 9
  • On the risk of infection by infectious aerosols in large indoor spaces
    • Authors: B. Hejazi, O. Schlenczek, B. Thiede, G. Bagheri, E. Bodenschatz
    • Year: 2022
    • Citations: 4
  • Honeybees modify flight trajectories in turbulent wind
    • Authors: B. Hejazi, C. Küchler, G. Bagheri, E. Bodenschatz
    • Year: 2022
    • Citations: 3
  • Particle-turbulence interactions
    • Author: B. Hejazi
    • Year: 2021
    • Citations: 3
  • Crack characterization of fatigued additively manufactured Ti-6Al-4V using X-ray computed tomography and deep learning methods
    • Authors: B. Hejazi, A. Compart, T. Fritsch, R. Wagner, A. Weidner, H. Biermann, …
    • Year: 2024
  • Honeybee flight dynamics and pair separation in windy conditions near the hive entrance
    • Authors: B. Hejazi, H. Antigny, S. Huellstrunk, E. Bodenschatz
    • Year: 2023
  • Honeybee flight in windy conditions
    • Authors: B. Hejazi, C. Küchler, G. Bagheri, E. Bodenschatz
    • Year: 2022

 

Md Atiqur Rahman | Heat Transfer | Best Researcher Award

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Dr. Md Atiqur Rahman | Heat Transfer | Best Researcher Award

Assistant Professor at Vignan’s Foundation for Science, Technology & Research (Deemed to be University), India

Md Atiqur Rahman is an Assistant Professor at Vignan’s Foundation for Science, Technology & Research, with a focus on enhancing academic performance and fostering student success. He holds a Ph.D. from Birla Institute of Technology, Mesra, and has a strong educational background, including an M.Tech and B.E. from Visvesvaraya Technological University. With over 3.5 years of teaching experience across various institutions, Rahman has published numerous research papers in reputable journals, primarily focusing on heat exchangers and thermal engineering. His contributions to conferences and workshops demonstrate his commitment to advancing knowledge in his field. As a member of professional societies and a reviewer for several journals, he actively engages in the academic community. Rahman’s career goal is to develop effective educational strategies that lead to substantial academic improvements for his students, showcasing his dedication to education and research.

Profile

Education

Md Atiqur Rahman has a robust educational background, beginning with his Bachelor of Engineering (B.E.) degree from Visvesvaraya Technological University (V.T.U.) Belgaum, where he graduated with first-class honors. He further advanced his studies by earning a Master of Technology (M.Tech) from the same university, again achieving first-class results. Currently, he is in the final stages of his academic journey, having submitted his Ph.D. dissertation at the prestigious Birla Institute of Technology in Mesra. His educational pursuits reflect a commitment to excellence in the field of engineering, particularly in thermal and fluid dynamics. This strong foundation in engineering principles has equipped him with the knowledge and skills necessary to contribute significantly to both academic and research endeavors in his career.

Professional Experience

Md Atiqur Rahman has amassed over 3.5 years of professional experience in the field of mechanical engineering and education. He began his career as a Lecturer at M.V.J Polytechnic in Bangalore, where he taught from June 2011 to February 2014. He then advanced to the role of Assistant Professor at Sri Venkatesh Perumal College of Engineering and Technology in Puttur, serving from June 2016 to April 2017. Following this, he took on the position of Guest Lecturer at BIT University Polytechnic in Mesra from January 2018 to August 2020. Currently, he is an Assistant Professor at Vignan’s Foundation for Science, Technology & Research (Deemed to be University) in Guntur, a position he has held since June 2024. Throughout his career, Md Rahman has been dedicated to enhancing students’ academic performance and actively contributing to the field through teaching, research, and publications in reputable journals.

Research Interest

Md Atiqur Rahman has a keen research interest in the field of thermal engineering, specifically focusing on the performance optimization of heat exchangers. His work primarily involves the investigation of innovative flow deflector designs and their effects on thermofluid performance in various heat exchanger configurations. Through his research, he aims to enhance the efficiency of heat transfer processes, which is critical in industrial applications such as power generation, HVAC systems, and chemical processing. Additionally, Rahman’s studies extend to the utilization of nanofluids for improved thermal performance, as well as the development of advanced baffle plates that facilitate better fluid dynamics. He is dedicated to addressing real-world engineering challenges by implementing experimental methods and computational fluid dynamics (CFD) simulations in his research endeavors. Overall, his contributions aim to advance the understanding of heat exchanger technology and promote energy efficiency in engineering applications.

Research Skills

Md Atiqur Rahman possesses a diverse set of research skills that significantly contribute to his expertise in the field of thermal engineering and heat exchanger performance. His strong analytical abilities enable him to conduct comprehensive experiments and evaluations of thermo-fluid dynamics, particularly in heat exchangers equipped with innovative baffle plates. With a solid foundation in computational fluid dynamics, he employs advanced simulation techniques to analyze and optimize thermal systems effectively. Rahman’s proficiency in data interpretation and statistical analysis enhances his capability to derive meaningful conclusions from experimental results. He is also adept at disseminating his findings through publications in peer-reviewed journals and presentations at international conferences, showcasing his commitment to advancing knowledge in his area of research. Furthermore, his involvement as a reviewer for esteemed journals demonstrates his engagement with the academic community and his dedication to maintaining high research standards. Overall, his research skills reflect a comprehensive approach to addressing complex engineering challenges.

Award and Recognition

Md Atiqur Rahman has made significant contributions to the field of mechanical engineering, particularly in the study of heat exchangers and thermal performance. His research has been recognized in various prestigious journals, including the Journal of Engineering Research and the Bulletin of the Polish Academy of Sciences, where he has published multiple papers that highlight innovative solutions in thermofluid performance. Additionally, he has presented his work at prominent international conferences, such as the International Conference on Innovations in Engineering and Technology, further establishing his reputation within the academic community. Rahman’s dedication to continuous learning is evidenced by his participation in numerous workshops and training programs focused on advanced topics in mechanical and thermal engineering. His active involvement in professional organizations, such as the Indian Society of Technical Education, showcases his commitment to fostering collaboration and knowledge exchange in the engineering field. Overall, Rahman’s achievements reflect his strong research capabilities and dedication to advancing engineering practices.

Conclusion

Md Atiqur Rahman exemplifies the qualities of an outstanding researcher through his dedication to advancing knowledge in mechanical engineering. His solid educational foundation, impressive publication record, and active participation in the academic community position him as a suitable candidate for the Best Researcher Award. By addressing areas for improvement, he can further enhance his contributions to the field and continue to inspire students and colleagues alike.

Publication Top Notes

  • Performance evaluation of turbulent circular heat exchanger with a novel flow deflector-type baffle plate
    • Authors: MA Rahman, SK Dhiman
    • Year: 2023
    • Journal: Journal of Engineering Research
    • Citations: 17
  • Experimental Investigations on Single-Phase Heat Transfer Enhancement in an Air-To-Water Heat Exchanger with Rectangular Perforated Flow Deflector Baffle Plate
    • Authors: MA Rahman
    • Year: 2023
    • Journal: International Journal of Thermodynamics (IJoT)
    • Volume/Issue/Page: 26(4), 31-39
    • Citations: 15
  • Effectiveness of a tubular heat exchanger and a novel perforated rectangular flow-deflector type baffle plate with opposing orientation
    • Authors: MA Rahman
    • Year: 2023
    • Journal: World Journal of Engineering
    • Citations: 13
  • Investigations of the turbulent thermo-fluid performance in a circular heat exchanger with a novel flow deflector-type baffle plate
    • Authors: MA Rahman, SK Dhiman
    • Year: 2023
    • Journal: Bulletin of the Polish Academy of Sciences. Technical Sciences
    • Volume/Issue: 71(4)
    • Citations: 13
  • The influence of geometrical and operational parameters on thermofluid performance of discontinuous colonial self‐swirl‐inducing baffle plate in a tubular heat exchanger
    • Authors: MA Rahman
    • Year: 2024
    • Journal: Heat Transfer
    • Volume/Issue/Page: 53(2), 328-345
    • Citations: 11
  • The effect of triangular shutter type flow deflector perforated baffle plate on the thermofluid performance of a heat exchanger
    • Authors: MA Rahman
    • Year: 2024
    • Journal: Heat Transfer
    • Volume/Issue/Page: 53(2), 939-956
    • Citations: 9
  • Thermo-fluid performance comparison of an in-line perforated baffle with oppositely oriented rectangular-wing structure in turbulent heat exchanger
    • Authors: MA Rahman
    • Year: 2024
    • Journal: International Journal of Fluid Mechanics Research
    • Volume/Issue: 51(1)
    • Citations: 8
  • Thermal hydraulic performance of a tubular heat exchanger with in‐line perforated baffle with shutter type saw tooth turbulator
    • Authors: MA Rahman
    • Year: 2024
    • Journal: Heat Transfer
    • Volume/Issue/Page: 53(5), 2234-2256
    • Citations: 5
  • Study the effect of axially perforated baffle plate with multiple opposite-oriented trapezoidal flow deflectors in an air–water tubular heat exchanger
    • Authors: MA Rahman
    • Year: 2024
    • Journal: World Journal of Engineering
    • Citations: 5
  • Assessment of Improving Heat Exchanger Thermal Performance through Implementation of Swirling Flow Technology
    • Authors: MA Rahman, SMM Hasnain, R Zairov
    • Year: 2024
    • Journal: International Journal of Thermofluids
    • Volume/Page: 100689
    • Citations: 3

Natarajan Sampathkumar | Phytochemistry | Best Researcher Award

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Dr. Natarajan Sampathkumar | Phytochemistry | Best Researcher Award

Professor/Principal at SSM College of Arts and Science, Dindigul, India.

Dr. Natarajan Sampathkumar is a distinguished chemist specializing in multidisciplinary chemistry, with expertise in phytochemistry, nanotechnology, and solid-state chemistry. He currently serves as the Principal of SSM College of Arts & Science, following a successful tenure as a professor at SSM Institute of Engineering and Technology. Dr. Sampathkumar holds a Ph.D. from Bharathidasan University and has published extensively in reputable journals, contributing significantly to fields such as nanoparticle research and environmental sustainability. His accolades include the Best Presentation Award at an international conference, reflecting his ability to communicate complex scientific concepts effectively. Active in professional organizations, he has taken on leadership roles in various committees, promoting innovation and academic excellence. With a strong commitment to research and education, Dr. Sampathkumar continues to inspire the next generation of scientists, making substantial contributions to the advancement of chemistry and its applications in addressing contemporary challenges.

Profile:

Education

Dr. Natarajan Sampathkumar has an impressive educational background that lays the foundation for his expertise in multidisciplinary chemistry. He earned his Ph.D. in 2012 from Bharathidasan University, where his research contributed significantly to the field. Prior to that, he completed his M.Phil. in 2003 at the Government College for Men, Kumbakonam, further deepening his understanding of chemical sciences. Dr. Sampathkumar also holds an M.Sc. in Chemistry, which he obtained in 1997 from A.V.C. College, Mannampandal. His academic journey began with a B.Sc. in Chemistry in 1995, also from A.V.C. College. This strong educational foundation, combined with his diverse research interests in phytochemistry, nanotechnology, and solid-state chemistry, has equipped Dr. Sampathkumar with the necessary knowledge and skills to make substantial contributions to scientific research and education.

Professional Experience

Dr. Natarajan Sampathkumar has an extensive professional background in academia, with significant roles that highlight his leadership and expertise in chemistry. He is currently serving as the Principal of SSM College of Arts & Science in Dindigul, Tamil Nadu, where he has been since 2022. Prior to this, he was a Professor at SSM Institute of Engineering and Technology from 2014 to 2022, contributing to both teaching and research. His academic journey began at Chettinad College of Engineering and Technology, where he served as an Assistant Professor from 2007 to 2013, and earlier, he held a similar position at S.K.S.S. Arts College from 2000 to 2007. With a Ph.D. from Bharathidasan University, Dr. Sampathkumar has built a diverse research portfolio in phytochemistry, nanotechnology, and solid-state chemistry, underscoring his commitment to advancing the field through education and innovative research initiatives.

Research Interest

Dr. Natarajan Sampathkumar’s research interests lie at the intersection of multidisciplinary chemistry, with a particular focus on phytochemistry, nanotechnology, and solid-state chemistry. His work encompasses the synthesis and application of carbon dots and nanoparticles, exploring their potential in environmental remediation and biomedical applications. Dr. Sampathkumar is particularly interested in the pharmacological properties of synthesized materials, such as TiO2 nanoparticles, which are investigated for their antimicrobial and antioxidant activities. His research also addresses sustainable technologies for treating industrial wastewater and the degradation of toxic dyes, emphasizing the importance of environmentally friendly solutions in chemical processes. Furthermore, he is involved in the development of green synthesis methods, utilizing plant extracts to produce nanoparticles, thereby promoting eco-friendly practices in materials science. Through his diverse research endeavors, Dr. Sampathkumar aims to contribute to the advancement of innovative materials and sustainable practices in chemistry.

Research Skills

Dr. Natarajan Sampathkumar possesses a diverse array of research skills that make him a prominent figure in multidisciplinary chemistry. His expertise encompasses phytochemistry, nanotechnology, and solid-state chemistry, allowing him to tackle complex scientific challenges from various angles. Dr. Sampathkumar is skilled in synthesizing and characterizing nanomaterials, such as titanium dioxide nanoparticles, and evaluating their applications in dye degradation and antimicrobial properties. He demonstrates proficiency in experimental design, data analysis, and statistical methods, essential for rigorous scientific inquiry. His experience in pharmacological evaluations showcases his ability to assess the biological effects of compounds, further contributing to advancements in medicinal chemistry. Additionally, his involvement in peer review and editorial responsibilities reflects his critical thinking and analytical skills. Dr. Sampathkumar’s commitment to innovation and sustainability in chemical research positions him as a valuable contributor to the scientific community, particularly in developing environmentally friendly technologies.

Award and Recognition

Dr. Natarajan Sampathkumar has made significant contributions to the field of chemistry, earning recognition for his innovative research and leadership. He received the Best Presentation Award at an international conference hosted by the Department of Chemistry at Annamalai University in 2010, showcasing his ability to communicate complex scientific concepts effectively. In addition to his award, Dr. Sampathkumar is a life member of the Indian Society for Technical Education (ISTE), reflecting his commitment to fostering educational excellence. His involvement in various committees, such as the Review Committee for the International Journal of Tropical Disease and Health and the Asian Journal of Biology, highlights his active engagement in advancing scientific research. Through his roles as a mentor and leader, particularly as the Principal of SSM College of Arts & Science, he has inspired many students and researchers, solidifying his reputation as a respected figure in multidisciplinary chemistry.

Conclusion

Dr. Natarajan Sampathkumar exemplifies a dedicated researcher with significant contributions to multidisciplinary chemistry. His extensive publication record, leadership roles, and active engagement in the scientific community position him as a strong candidate for the Best Researcher Award. By addressing areas for improvement, such as enhancing collaboration and community engagement, he can further amplify his impact in the field of chemistry. Dr. Sampathkumar’s commitment to advancing knowledge and fostering innovation makes him a deserving nominee for this prestigious award.

Publication Top Notes

  1. Luminescent TiO2 nanoparticles synthesized from Mollugo Oppositifolia and Trianthema Portulacastrum for dye degradation, antimicrobial and antioxidant properties
    • Authors: Sampathkumar, N., Swetharanyam, A., Arul, V., Balasankar, A., Nivetha, S.
    • Year: 2024
    • Journal: Luminescence
    • Volume/Issue/Page: 39(8), e4847
    • Citations: 0
  2. Blocking of Protease Mpro of SARS-CoV-2 Coronavirus by 2-Formyl-8-Methyl-3-Carbethoxy Quinoline
    • Authors: Ebenazer, A.F., Kumar, R.S., Saravanabhavan, M., Ramesh, K.S., Sampathkumar, N.
    • Year: 2024
    • Journal: Theoretical and Experimental Chemistry
    • Citations: 0
  3. Chromene Carbohydrazide- Schiff Base as a Highly Selective Turn-Off Fluorescence Chemosensor for In3+ Ion and its Application
    • Authors: Jayapriya, S., Ebenazer, A.F., Sampathkumar, N., Rajesh, J., Rajagopal, G.
    • Year: 2024
    • Journal: Journal of Fluorescence
    • Citations: 1
  4. Correction: Biomass derived nitrogen functionalized carbon nanodots for nanomolar determination of levofloxacin in pharmaceutical and water samples
    • Authors: Arul, V., Sampathkumar, N., Kotteeswaran, S., Habila, M.A., Govindasamy, M.
    • Year: 2023
    • Journal: Microchimica Acta
    • Volume/Issue/Page: 190(7), 269
    • Citations: 1
  5. Biomass derived nitrogen functionalized carbon nanodots for nanomolar determination of levofloxacin in pharmaceutical and water samples
    • Authors: Arul, V., Sampathkumar, N., Kotteeswaran, S., Habila, M.A., Govindasamy, M.
    • Year: 2023
    • Journal: Microchimica Acta
    • Volume/Issue/Page: 190(6), 242
    • Citations: 9
  6. Detoxification of Toxic Organic Dye by Heteroatom-Doped Fluorescent Carbon Dots Prepared by Green Hydrothermal Method Using Garcinia mangostana Extract
    • Authors: Arul, V., Radhakrishnan, K., Sampathkumar, N., Abirami, N., Inbaraj, B.S.
    • Year: 2023
    • Journal: Agronomy
    • Volume/Issue/Page: 13(1), 205
    • Citations: 8
  7. Synthesis, spectral characterization, crystal structure and computational investigation of 2-formyl-6-methoxy-3-carbethoxy quinoline as potential SARS-CoV inhibitor
    • Authors: Franklin Ebenazer, A., Saravanabhavan, M., Ramesh, K.S., Al-Sehemi, A.G., Sampathkumar, N.
    • Year: 2022
    • Journal: Journal of Physics and Chemistry of Solids
    • Volume/Issue/Page: 170, 110886
    • Citations: 4
  8. Photocatalytic degradation of organophosphorus pesticide using semiconductor-sensitized composite in natural water: effect of oxidants
    • Authors: Ebenazer, A.F., Vijayan, P., Sampathkumar, N., Sivadhayanidhy, M.
    • Year: 2020
    • Journal: Applied Physics A: Materials Science and Processing
    • Volume/Issue/Page: 126(3), 186
    • Citations: 10
  9. Fastidious anatomization of biota procured compounds on cancer drug discovery
    • Authors: Thirupathi, A., Shanmugavadivelu, C.M., Natarajan, S.
    • Year: 2020
    • Journal: Current Pharmaceutical Biotechnology
    • Volume/Issue/Page: 21(5), pp. 354–363
    • Citations: 0
  10. Pineapple Peel-Derived Carbon Dots: Applications as Sensor, Molecular Keypad Lock, and Memory Device
    • Authors: Vandarkuzhali, S.A.A., Natarajan, S., Jeyabalan, S., Muthusubramanian, S., Viswanathan, B.
    • Year: 2018
    • Journal: ACS Omega
    • Volume/Issue/Page: 3(10), pp. 12584–12592
    • Citations: 113