Natesan Kandasamy | Chemistry and Materials Science | Research Hypothesis Excellence Award

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Dr. Natesan Kandasamy | Chemistry and Materials Science | Research Hypothesis Excellence Award

Dr. Natesan Kandasamy | Chemistry and Materials Science | Research Hypothesis Excellence Award | Assistant Professor | Sengunthar Engineering College (Autonomous) | India

Dr. Natesan Kandasamy is a distinguished researcher and academician specializing in nanoscience, nanotechnology, and electrochemistry with a focus on advanced electrode materials for supercapacitor applications. He has made significant contributions to the synthesis and characterization of metal oxide and conducting polymer-based nanostructures, driving innovation in the field of sustainable energy storage. As a passionate educator and scientist, Dr. Natesan Kandasamy combines his expertise in materials science with a commitment to training future researchers, mentoring students, and advancing collaborative research efforts across institutions and disciplines. His professional career reflects a blend of academic rigor, industry experience, and leadership in research and quality management, making him a strong candidate for prestigious recognitions.

Professional Profile 

Education

Dr. Natesan Kandasamy earned his Ph.D. in Chemistry with a specialization in nanostructured materials for energy storage applications, completing his doctoral work on the “Investigation of Nanostructured Metal Oxide and Conducting Polymer Based Electrodes for Capacitance Applications.” His academic journey also includes postgraduate and research degrees focusing on analytical chemistry and nanotechnology, which have provided him with a strong theoretical and experimental foundation. This academic preparation has equipped him to contribute to multidisciplinary fields including electrochemistry, materials characterization, and green energy research.

Experience

Dr. Natesan Kandasamy is currently serving as an Assistant Professor, where he is actively involved in teaching, mentoring, and research activities. He previously held the role of Quality Manager at a NABL-accredited testing laboratory, where he successfully implemented ISO/IEC 17025 quality standards and ensured compliance with rigorous laboratory protocols. His experience bridges academia and industry, enabling him to apply practical knowledge to academic research. He has participated in numerous workshops and seminars on nanoscience, electron microscopy, and photocatalysis, enhancing his skill set and staying updated with emerging scientific trends.

Research Interest

His research interests center on the design and development of nanomaterials for energy storage and electrochemical applications. Dr. Natesan Kandasamy focuses on creating sustainable solutions through advanced nanostructured metal oxides, sulfides, and hybrid composites. His work includes investigating optical, thermal, and structural properties of materials, fabricating high-performance electrodes, and studying their capacitance properties. He is particularly passionate about bridging the gap between laboratory research and industrial application, aligning his work with future needs in renewable energy and environmental sustainability.

Award

Dr. Natesan Kandasamy has been recognized for his contributions to research and quality management, receiving appreciation for his scholarly publications, conference presentations, and his dedication to academic excellence. His role as a mentor and educator, along with his active participation in scientific events, reflects his commitment to promoting scientific literacy and community development.

Selected Publication

  • “Synthesis and Characterization of Mercury Doped and Un-doped Manganese Sulfide Nanostructure” (2012) – 25 Citations

  • “Synthesis and Optical Properties of Vanadium Doped Covellite Nanostructure by Wet Chemical Method” (2013) – 18 Citations

  • “Synthesis of Uniform and High-Density Silver Nanoparticles Using Peltophorum Pterocarpum Plant Extract” (2014) – 30 Citations

  • “Facile Synthesis of Binder-Free Ternary CuMnCoOx Supported Graphene Oxide Nanostructures as Active Electrode Material for Capacitance Applications” (In Revision) – 12 Citations

Conclusion

Dr. Natesan Kandasamy is a deserving nominee for this award, bringing together academic excellence, research innovation, and professional leadership. His contributions to nanoscience and energy storage materials have significant implications for developing sustainable technologies that benefit society. Through his publications, conference presentations, and mentorship, he continues to influence students and researchers while advancing the frontiers of nanotechnology. His future research aims to expand international collaborations, publish in top-tier journals, and contribute to the global scientific community, positioning him as a promising leader in the field of materials science and electrochemistry.

 

Mehdi SALEM | Chemistry and Materials Science | Best Researcher Award

Published on by Research Hypothesis

Mehdi SALEM | Chemistry and Materials Science | Best Researcher Award

Dr Mehdi SALEM, IMT Mines Albi, France

Dr. Mehdi Salem appears to be an excellent candidate for the Best Researcher Award due to his significant contributions in materials science and mechanical engineering, specifically in areas like thermal fatigue, high-temperature corrosion, and additive manufacturing. Below are key factors supporting his suitability:

Publication profile

google scholar

Strong Academic Background

Dr. Salem holds a Doctorate in Mechanical Engineering (2009) from Université Paul Sabatier de Toulouse, with prior degrees in materials science and general engineering. His academic foundation is rooted in prestigious institutions, reflecting his depth in research capabilities.

Professional Experience

With over a decade of experience as a research engineer at Armines – IMT Mines Albi-Carmaux and extensive post-doctoral work, Dr. Salem’s professional career focuses on high-impact research in material fatigue, metal forming processes, and additive manufacturing. His roles as a lecturer further demonstrate his academic leadership.

Expertise and Technical Contributions

His expertise spans advanced topics such as thermal fatigue, corrosion, residual stress evaluation, and additive manufacturing. His technical skills in simulation (e.g., MEF), microstructural analysis, and materials testing position him as a leading researcher in his field.

Publications and Impact

Dr. Salem’s publications, such as his work on thermal fatigue analysis and residual stresses in selective laser melting, have made a significant contribution to mechanical engineering and materials science, with citations demonstrating the relevance of his research. His published papers in top-tier journals like International Journal of Fatigue and Additive Manufacturing have garnered considerable citations, reflecting the impact of his research on both academic and industrial applications.

Multidisciplinary Collaboration

Collaborating with both academic and industrial entities, his research has addressed real-world challenges, such as improving machining quality and enhancing the durability of automotive components. His work on the effect of doum palm fibers and aluminizing on thermal fatigue demonstrates innovative problem-solving in diverse materials.

Research focus

M. Salem’s research primarily focuses on thermal fatigue, additive manufacturing, and composite materials. His work spans analyzing thermal fatigue in automotive diesel pistons and hot work tool steels to improving additive manufacturing processes like selective laser melting and cold metal transfer. He also explores the mechanical and thermal properties of materials, including aluminum alloys and gypsum mortars reinforced with natural fibers. Another key aspect of his research involves developing innovative tools to enhance machining quality and reduce harmful particulate dispersion in composite materials. 🔧🛠️🔥🌡️📊

Conclusion

Dr. Salem’s deep expertise, demonstrated impact through highly cited publications, and his significant technical achievements in thermal fatigue, additive manufacturing, and residual stress analysis make him a standout candidate for the Best Researcher Award. His ongoing contributions to both academic research and industrial applications exemplify his leadership in the field of materials science.

Publication top notes

Thermal fatigue analysis of automotive Diesel piston: Experimental procedure and numerical protocol

Characterisation of 4043 aluminium alloy deposits obtained by wire and arc additive manufacturing using a Cold Metal Transfer process

Improvement of the bridge curvature method to assess residual stresses in selective laser melting

New tool for reduction of harmful particulate dispersion and to improve machining quality when trimming carbon/epoxy composites

The effect of doum palm fibers on the mechanical and thermal properties of gypsum mortar

Effect of aluminizing and oxidation on the thermal fatigue damage of hot work tool steels for high pressure die casting applications

Numerical simulation of thermal fatigue behavior in a cracked disc of AISI H-11 tool steel

A new insight on the analysis of residual stresses related distortions in selective laser melting of Ti-6Al-4V using the improved bridge curvature method

New model for the prediction of the machining depth during milling of 3D woven composite using abrasive waterjet process

Experimental study of thrust force and surface quality when drilling hybrid stacks