T. Pramod | Materials Science | Best Researcher Award

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Mr. T. Pramod | Materials Science | Best Researcher Award

Research Scholar at Kalasalingam Academy of Research and Education, India

T. Pramod is a dedicated researcher and technical expert specializing in mechanical engineering, material science, and nanocomposites. With a passion for innovation, he has contributed significantly to the advancement of fire-retardant materials, hydro turbine coatings, and polymer nanocomposites. His extensive experience spans research roles in prestigious institutions, including ISRO (LEOS), TERI, and CPRI, where he played a crucial role in developing cutting-edge technologies. As an active contributor to the scientific community, he has published numerous journal articles, presented research at international conferences, and filed multiple patents. His expertise in computational simulations, thermal coatings, and material characterization has made him a recognized name in engineering research. Alongside his technical acumen, Pramod has served as an editorial board member and reviewer for reputed journals, further establishing his influence in academia. His career is a testament to his dedication to scientific exploration and engineering advancements.

Professional Profile

Education

T. Pramod holds an M.Sc. Engineering by Research in Mechanical Engineering from Visvesvaraya Technological University, where he conducted in-depth research on material degradation and coatings. His undergraduate education includes a Bachelor of Engineering (B.E.) in Mechanical Engineering from M.V.J College of Engineering, Bangalore, where he developed a strong foundation in design, thermal engineering, and manufacturing processes. Prior to his engineering studies, he completed Pre-University Education (PCMB) from Sree Cauvery College, Bangalore, and his SSLC from Kendriya Vidyalaya, DRDO Township, where he exhibited a keen interest in science and mathematics. Throughout his academic journey, he consistently explored advanced research methodologies, gaining expertise in experimental analysis, computational modeling, and material characterization. His strong academic background laid the foundation for his prolific research career, equipping him with the necessary knowledge and skills to excel in mechanical and materials engineering.

Professional Experience

T. Pramod has amassed a wealth of experience in research and development, holding significant roles across premier research institutions. Currently, he serves as a Technical Assistant at ISRO’s Laboratory for Electro Optics Systems (LEOS), specializing in metrology and optics inspection. Previously, he was a Research Consultant at The Energy and Resources Institute (TERI-SRC), Bangalore, where he worked on fire-retardant nanocomposites for medium-voltage cable sheathing applications. His tenure as a Research Fellow at Central Power Research Institute (CPRI), Bangalore, focused on the combined effects of cavitation and silt erosion in hydro turbine coatings. Earlier, he worked at the Central Manufacturing Technology Institute (CMTI), Bangalore, exploring ductile regime machining of brittle materials. His extensive industrial and research experience has contributed to groundbreaking advancements in material science, coatings, and mechanical performance analysis. His multidisciplinary expertise has enabled him to bridge the gap between research and industrial applications.

Research Interests

T. Pramod’s research interests lie in the fields of material science, nanocomposites, thermal spray coatings, mechanical behavior, and fire-retardant materials. His work extensively covers the development and characterization of high-performance materials for aerospace, power, and defense applications. He specializes in polymer nanocomposites, mechanical testing, thermal degradation, and erosion-resistant coatings, contributing to advancements in engineering materials. His recent research focuses on intumescent fire-retardant nanocomposites, where he investigates the enhancement of flame resistance in polymer materials. Additionally, his studies on hydro turbine coatings and cavitation erosion resistance provide valuable insights into improving the durability of engineering structures. Through experimental and computational approaches, he has explored various mechanical and tribological properties of materials, aiming to optimize their performance under extreme conditions. His interdisciplinary research integrates material science, fluid mechanics, and thermal engineering to develop next-generation materials with superior properties.

Awards and Honors

T. Pramod has been recognized for his outstanding contributions to research and development in mechanical and materials engineering. He has filed multiple patents, including one on fire-retardant nanocomposite materials and another on hydro turbine erosion coatings, showcasing his innovation in material applications. As an editorial and review board member for reputed scientific journals, he has played a crucial role in advancing knowledge dissemination in engineering. He has actively contributed as a technical committee member for national and international conferences, including the National Conference on Additive Manufacturing in Aerospace and Defense and the All India Seminar on Residual Stress and Advanced NDE Techniques. His numerous journal publications in high-impact international journals reflect his significant research impact. Additionally, he has been honored for his participation in scientific symposiums and technical workshops, further solidifying his stature as an accomplished researcher in his field.

Conclusion

T. Pramod has an impressive research background, publication record, patents, and technical expertise, making him a strong candidate for the Best Researcher Award. If he enhances his academic credentials, research leadership, and global outreach, he would be an even more outstanding contender.

Publications Top Noted

Author: T. Pramod, Shreyas J. Kashyap, Z. Yunus Khan, Mohammed Jahangeer Ali, Mohammed Yunus Khaleel, R.R.N. Sailaja
Year: 2025
Citation: Pramod, T., Kashyap, S. J., Khan, Z. Y., Ali, M. J., Khaleel, M. Y., & Sailaja, R. R. N. (2025). Mechanical and flame retardant characteristics of PC/ABS composites: Effect of loading co-microencapsulated flame retardant additive along with silane treated nanoclay and functionalized MWCNT as fillers. Advanced Composite Materials. DOI: 10.1080/09243046.2025.2475600

 

Hela Ferjani | Material sciences | Best Researcher Award

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Assoc.  Prof. Dr. Hela Ferjani |  Material sciences | Best Researcher Award

Associate professor, Imam Ibn Saud Univerdity, Saudi Arabia

Dr. Hela Al-Ferjani is an Associate Professor at Imam Mohammad Ibn Saud Islamic University in Riyadh, Saudi Arabia, with permanent residency in Riyadh. She has an extensive academic career, having worked at prestigious institutions such as Umm Al Qura University and the University of Tunis El-Manar. With over a decade of teaching experience, Dr. Al-Ferjani has supervised numerous undergraduate, MSc, and PhD students. She is internationally recognized for her research and has built strong collaborations with top global universities, including the University of Pennsylvania, Sorbonne University, and Southeast University. Her work spans multiple fields, including nanomaterials, hybrid materials, and organometallic complexes. Dr. Al-Ferjani’s innovative contributions to the scientific community are evident in her numerous patents, peer-reviewed publications, and academic collaborations. Her expertise has garnered recognition in both experimental and theoretical aspects of materials chemistry.

Profile

Education 

Dr. Hela Al-Ferjani earned her Ph.D. in Chemistry from the University of Tunis El-Manar, Tunisia, in 2014, where she specialized in solid-state chemistry. Prior to that, she completed her M.Sc. in Chemistry with a focus on solid-state chemistry at the same institution in 2010. Her academic journey began with a B.Sc. in Physics, Chemistry, and Mathematics from the University of Tunis El-Manar in 2008. Throughout her educational career, Dr. Al-Ferjani displayed exceptional aptitude in scientific research and gained a solid foundation in chemistry and material science. She has since contributed greatly to the development of organic-inorganic hybrid materials, nanomaterials, and organometallic complexes. Her educational background reflects her commitment to advancing scientific knowledge, particularly in the design and application of materials for various technologies, including solar systems, photocatalysis, and biological applications. Her academic credentials have also paved the way for her successful teaching and research career.

Experience 

Dr. Hela Al-Ferjani has extensive experience in higher education and research. She is currently an Associate Professor at Imam Mohammad Ibn Saud Islamic University in Riyadh, where she has been serving since 2022. Prior to this, she was an Assistant Professor at the same institution from 2017 to 2021. Dr. Al-Ferjani also worked as an Assistant Professor at Umm Al Qura University between 2014 and 2016 and as a Lecturer at the University of Tunis El-Manar from 2010 to 2014. In her academic career, she has taught a variety of courses, including General Chemistry, Inorganic and Organic Chemistry, and Quantum Chemistry. Additionally, Dr. Al-Ferjani has supervised numerous student projects at both undergraduate and graduate levels, showcasing her dedication to student mentorship. Her research activities have involved collaborations with leading global institutions, including the University of Pennsylvania and Sorbonne University, further enhancing her academic contributions.

Research Focus 

Dr. Hela Al-Ferjani’s primary research interests revolve around the synthesis and study of organic-inorganic hybrid materials, nanomaterials, and organometallic complexes. She focuses on designing materials with applications in solar energy systems, photocatalysis, optoelectronics, and magnetic technologies. Additionally, Dr. Al-Ferjani investigates their potential in environmental and biological contexts, including medicinal applications. Her work combines experimental and theoretical approaches, which enables the strategic design of advanced materials with tailored properties for specific applications. By exploring the structure-property relationships of these materials, Dr. Al-Ferjani aims to contribute to the development of sustainable technologies and new solutions to global challenges. Her innovative contributions have led to several patents, as well as numerous peer-reviewed publications in high-impact journals. She collaborates internationally with renowned research institutions and remains at the forefront of cutting-edge research in materials chemistry and nanotechnology, striving to advance both fundamental science and practical applications.

Publications

  • First-Principles Calculations to Investigate the Effect of Van der Waals Interactions on the Crystal and Electronic Structures of Tin-Based 0D Hybrid Perovskites 🧪💻 (2022)
  • Synthesis, crystal structure, Hirshfeld surface analysis, DFT calculations, 3D energy frameworks studies of Schiff base derivative 📊🔬 (2021)
  • Structural, Hirshfeld surface analysis, morphological approach, and spectroscopic study of new hybrid iodobismuthate containing tetranuclear 0D cluster 🔍🧑‍🔬 (2020)
  • New Quasi‐One‐Dimensional Organic‐Inorganic Hybrid Material: Synthesis, Crystal Structure, and Spectroscopic Studies 🔬🔧 (2014)
  • Facile synthesis of carbon dots by the hydrothermal carbonization of avocado peels and the photocatalytic evaluation 🥑💡 (2024)
  • Graphitic carbon nitride functionalized with Cu-doped Bi2S3 as a heterostructure photocatalyst for the visible light degradation of methyl orange ☀️🌿 (2023)
  • Dual S-scheme heterojunction g-C3N4/Bi2S3/CuS composite with enhanced photocatalytic activity 🌞🔬 (2023)
  • Broad-band luminescence involving fluconazole antifungal drug in a lead-free bismuth iodide perovskite 💊🌐 (2020)
  • Stabilization of supramolecular network of fluconazole drug polyiodide: Synthesis, computational and spectroscopic studies 🔬💊 (2022)
  • Crystal structure, Hirshfeld surface analysis, and DFT calculations of methyl (Z)-4-((4-((4-bromobenzyl) selanyl) phenyl) amino)-4-oxobut-2-enoate 🧪🔬 (2021)
  • Phyto-mediated synthesis of Ag, ZnO, and Ag/ZnO nanoparticles from leaf extract of Solanum macrocarpon 🌱💎 (2024)