Remi vincent | FRP in Renewable Energy | Best Researcher Award

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Dr. Remi vincent | FRP in Renewable Energy | Best Researcher Award

Doctorate at university Grenoble Alpes (CEA Grenoble), France

Profiles:

🎓📚Early Academic Pursuits

Rémi Vincent was born in 1979 in Nîmes, France. His early academic journey saw him excel in the sciences, paving the way for his later accomplishments in research and engineering. He pursued his engineering degree at EFPG (École Française de Papeterie et des Industries Graphiques), a prestigious French school specializing in printing and paper, graduating in 2003. During his time at EFPG, Vincent developed a solid foundation in material sciences, process engineering, and the complexities of fibrous structures.

Following his engineering degree, Vincent furthered his studies by pursuing a Ph.D. at Grenoble University, focusing on modeling and process engineering. His doctoral research, completed in 2006, was centered on the “Modeling of fibrous structure and prediction of physical properties.” This work involved simulating 3D fibrous networks, modeling tensile strength characteristics, and conducting flow simulations through fibrous structures using the “Lattice Boltzmann” method. His Ph.D. research resulted in three significant publications, establishing him as a promising researcher in the field.

🏢Professional Endeavors

ArjoWiggins Group (2006-2009)

After completing his Ph.D., Vincent joined the ArjoWiggins Group as a research engineer at their research center in Apprieu, France. During his tenure from 2006 to 2009, he worked on developing bank note papers and anti-forgery systems. His responsibilities included formulating functional coatings to enhance the durability of bank notes, optimizing paper structure, printability, strength, and roughness. Additionally, he was involved in the development and modeling of paper and coating processes. Vincent’s work at ArjoWiggins resulted in four published patents, showcasing his ability to innovate in the field of materials engineering.

CEA-Grenoble (2009-Present)

In 2009, Vincent transitioned to a role as a researcher at CEA-Grenoble, where he has made substantial contributions to the field of lithium battery safety and development. His work at CEA-Grenoble includes:

Safety Solutions for Lithium Batteries:

Vincent has been instrumental in developing mitigation solutions to enhance the safety of lithium batteries. This work involves designing specific abusive tests to evaluate battery safety, resulting in five publications and 32 published patents.

Electrode Development for Lithium Batteries:

He spent six months in Bolivia setting up a cathode manufacturing pilot line and formulating lithium sulfur cathodes. His efforts in this area led to one publication and 12 published patents.

MEA and MEA Components for PEMFC:

Vincent has significantly advanced the development of Membrane Electrode Assemblies (MEA) and their components for Proton Exchange Membrane Fuel Cells (PEMFC). His work includes formulating active layers and microporous layer functional inks for various printing processes, developing Gas Diffusion Layers (GDL) via papermaking processes, optimizing MEA in relation to bipolar plate designs, and analyzing the impact of operational strategies on MEA durability. He has also designed and optimized pilot lines for electrode and MEA assembly, with projects producing 1500 m²/day and 5000 m²/day respectively. His contributions in this area are documented in six publications and 41 published patents.

🔬Contributions and Research Focus

Vincent’s research has predominantly focused on enhancing the safety, efficiency, and durability of lithium batteries and fuel cells. His work encompasses:

Developing innovative solutions to mitigate safety risks in lithium batteries.

Pioneering the formulation and manufacturing of high-performance electrodes.

Advancing the design and production of MEA components for fuel cells.

Conducting extensive research on the impact of operational strategies on the durability of MEAs.

🏅Accolades and Recognition

Throughout his career, Rémi Vincent has received recognition for his innovative contributions to materials science and engineering. His numerous publications and extensive patent portfolio highlight his expertise and impact in the field. Notable accomplishments include:

32 patents on lithium battery safety solutions.

12 patents on electrode development for lithium batteries.

41 patents on MEA and MEA component development for PEMFC.

Multiple publications in peer-reviewed journals, demonstrating the breadth and depth of his research.

🌍Impact and Influence

Vincent’s work has had a significant impact on the fields of energy storage and fuel cell technology. His research on lithium battery safety has contributed to the development of safer, more reliable energy storage solutions, which are critical for a wide range of applications, from consumer electronics to electric vehicles. His innovations in MEA and fuel cell technology have advanced the efficiency and durability of fuel cells, making them more viable for commercial and industrial use.

🌟Legacy and Future Contributions

As a leading researcher at CEA-Grenoble, Rémi Vincent continues to push the boundaries of materials science and engineering. His ongoing projects and future research endeavors promise to yield further advancements in energy storage and conversion technologies. Vincent’s legacy lies in his dedication to improving the safety, performance, and sustainability of critical energy technologies, positioning him as a key figure in the ongoing evolution of these fields.

📖Publications:

Paper Title: Can the shock wave generated by the thermal runaway of a lithium-metal all-solid-state cell be predicted by material-scale analysis

  • Authors: Charbonnel, J., Bengaouer, A., Thivel, P.-X., Vincent, R.
  • Journal: Chemical Engineering Journal
  • Year: 2024

Paper Title: First Experimental Assessment of All-Solid-State Battery Thermal Runaway Propagation in a Battery Pack

  • Authors: Darmet, N., Charbonnel, J., Reytier, M., Broche, L., Vincent, R.
  • Journal: ACS Applied Energy Materials
  • Year: 2024

Paper Title: Hybrid Ceramic Polymer Electrolytes Enabling Long Cycling in Practical 1 Ah-Class High-Voltage Solid-State Batteries with Li Metal Anode

  • Authors: Boaretto, N., Meabe, L., Lindberg, S., Daniel, L., Martinez-Ibañez, M.
  • Journal: Advanced Functional Materials
  • Year: 2024

Paper Title: Preliminary study of all-solid-state batteries: Evaluation of blast formation during the thermal runaway

  • Authors: Charbonnel, J., Dubourg, S., Testard, E., Thivel, P.-X., Vincent, R.
  • Journal: iScience
  • Year: 2023

Paper Title: High-Frequency Voltage and Current Probes for Measurement at Distance with an Oscilloscope

  • Authors: Chauvin, J., Chatroux, D., Garnier, L., Azaïs, P., Vincent, R.
  • Journal: PCIM Europe Conference Proceedings
  • Year: 2023

Pengfei Wu | Composite Materials Science | Best Researcher Award

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Dr. Pengfei Wu | Composite Materials Science | Best Researcher Award

Doctorate at Purdue University – United States

Professional Profiles:

Early Academic Pursuits🎓

Pengfei Wu’s academic journey commenced with a foundation in Physics and Electronic Information at Luoyang Normal University, where he developed a keen interest in material science. This early exposure laid the groundwork for his Master’s degree in Material Physics and Chemistry at Xiamen University, focusing on advanced materials and their applications. His curiosity and dedication led him to delve deeper into the intricacies of energy storage systems, particularly Lithium-ion batteries, during his time at Xiamen University.

Professional Endeavors📚 

Transitioning to Hokkaido University as a research student under the guidance of Prof. Anhua Liu, Pengfei Wu honed his expertise in designing high-performance anodes for energy storage solutions. His doctoral studies at Hokkaido University further solidified his specialization in Polymer Science, catalyzing his exploration into sustainable polymers, polymer self-assembly, and catalysis. His tenure as a Post-Doctoral researcher at both Hokkaido University and Purdue University marked significant periods of collaborative research and innovation.

Contributions and Research Focus🔬 

Pengfei Wu’s research contributions span diverse fields, focusing primarily on sustainable polymer development, polymer self-assembly, energy conversion, and storage technologies. His work stands out for its innovative approaches in synthesizing optically active chiral polymers and block copolymers, aimed at applications such as circularly polarized light emission and asymmetric catalysis. His research also encompasses the structural and chemical design of advanced materials for improving battery performance, particularly Silicon-based anodes and SiOC-based materials.

Accolades and Recognition🏅🏆

Pengfei Wu has garnered recognition for his scholarly achievements, including publications in esteemed journals such as “Angewandte Chemie” and “Journal of Energy Storage.” His research on amplifying chirality transfer in polymeric materials and the development of novel polymerization methods has received acclaim for its innovative contributions to the field of Polymer Science.

Impact and Influence🌟

Through his research, Pengfei Wu has contributed significantly to advancing the understanding and applications of sustainable polymers and energy storage materials. His findings on the structural design of anodes and the self-assembly properties of polymers have paved the way for enhanced energy conversion technologies and environmentally friendly materials. His collaborative efforts with international researchers underscore his global impact on scientific advancements in Polymer Science and Material Chemistry.

Legacy and Future Contributions🚀

Looking ahead, Pengfei Wu aims to continue his research trajectory focused on addressing global challenges in energy storage and sustainability. His future contributions are poised to expand the frontiers of polymer science, catalysis, and energy materials, aiming for practical applications that drive sustainable development and technological innovation.

Pengfei Wu’s dedication to academic excellence and innovative research promises to leave a lasting imprint on the fields of Polymer Science and Material Chemistry, fostering solutions that resonate with both scientific communities and industrial applications.

Publications: 

Daisy Nestler | Electrical and Thermal Conductivity of FRPs | Best Researcher Award

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Prof Dr. Daisy Nestler | Electrical and Thermal Conductivity of FRPs | Best Researcher Award

Technische Universität Chemnitz, SLK, TKV –  Germany

Professional Profiles:

Prof. Dr.-Ing. habil. Daisy Nestler: A Trailblazer in Composite Materials and Lightweight Structures 🏗️

Early Academic Pursuits 📚

Prof. Dr.-Ing. habil. Daisy Nestler embarked on her academic journey at TU Chemnitz, where she earned her Doctorate in 1988. Her thesis focused on the “Influencing of layer formation by carbon and modified process parameters during CVD-boriding of ferrous materials.” She later achieved her habilitation in 2013 with a dissertation titled “Composite Materials – Material Compounds: Status quo and research approaches,” establishing herself as a leading expert in composite materials and hybrid compounds.

Professional Endeavors and Leadership Roles 🚀

Prof. Nestler’s career has been marked by numerous leadership roles:

  • Since April 2022, she has been leading the Funded Research Group “Textile Plastic Composites and Hybrid Compounds.”
  • From October 2016 to March 2022, she served as the Head of the Endowed Chair “Textile Plastic Composites and Hybrid Compounds” at the Institute of Lightweight Structures, Chemnitz University of Technology (CUT).
  • Her previous roles include being the Development Coordinator for “Hybrid Materials in Textile Lightweight Construction” at the Saxon Textile Research Institute e. V. (2017-2018) and Head of the Research Domain “Semi-finished Products and Preform Technologies” in the Cluster of Excellence 1075 “Merge Technologies for Multifunctional Lightweight Structures, MERGE” (2012-2019).

Research Focus and Innovations 🔬

Prof. Nestler’s research encompasses a broad spectrum of areas within materials science, including:

  • Preforms and Preform Technologies
  • Composite Materials (Polymer-Matrix Composites, Metal-Matrix Composites, Ceramic-Matrix Composites, Interpenetrated Phase Composites)
  • Hybrid Compounds
  • Lightweight Structures
  • Interface Engineering
  • CVD- and PVD-Coatings
  • Microstructure Analysis

Her innovative work has significantly advanced the understanding and application of composite materials in various industries, particularly in lightweight construction and hybrid material engineering.

Accolades and Recognition 🏆

Prof. Nestler’s contributions to materials science have been recognized through numerous awards and appointments:

  • Since October 2020, she has chaired the Technical Committee 05 (Materials Science and Physical Technologies) of ASIIN e. V.
  • She has been an expert for the Accreditation of study courses of ASIIN e. V. since May 2016.
  • In 2015, she was appointed as a Professor (apl.) at TU Chemnitz.
  • Her extensive publication record includes approximately 190 publications, 17 book chapters, and the acquisition of significant third-party funding (DFG, EU, BMWi, BMBF).

Impact and Influence 🌟

Prof. Nestler’s work has not only advanced academic research but also influenced practical applications in the industry. She has contributed to the development of new materials and technologies, enhancing the performance and durability of composite materials used in lightweight structures. Her leadership in various research groups and committees has fostered collaboration and innovation across the field of materials science.

Legacy and Future Contributions 🌍

Prof. Nestler’s ongoing research and dedication to teaching ensure that her impact on the field will continue to grow. Her work on composite-based hybrid technologies, fiber-reinforced plastics, and innovative material engineering has set a high standard for future research and development. She remains committed to mentoring young scientists and advancing the field of materials science through her continued research and professional activities.

Publication Top Noted:

Marat Gafurov | Composite Materials Science | Best Researcher Award

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Prof Dr. Marat Gafurov | Composite Materials Science | Best Researcher Award

Institute of Physics/ Kazan Federal University, Kazan, Russia

Professional Profiles:

🌟 Marat Gafurov: Renowned Physicist and Leader in Condensed Matter Physics 🌟

Early Academic Pursuits🌍 

Marat Gafurov was born on August 23, 1972, in Kazan, Russian Federation. His academic journey in physics began at Kazan State University (KSU), where he earned his diploma with honors in physics and electronics in 1994. He continued his studies at KSU, completing his Ph.D. in Physics in 1997. His doctoral research focused on the magnetic properties of impurity ions and intrinsic magnetic centers in high-temperature compounds, laying the groundwork for his future endeavors in condensed matter physics.

Professional Endeavors🏅

Gafurov’s professional career at Kazan Federal University (KFU), previously Kazan State University (KGU), began in 1999. Over the years, he has held various positions, from Design Technician to Senior and Leading Researcher. His expertise and dedication to the field earned him a position as an Associate Professor and later a Professor in the Department of Medical Physics at KFU. In December 2020, Gafurov became the Deputy Director of the Institute of Physics for scientific activities and was subsequently appointed as the Director in October 2021.

Contributions and Research Focus📚🧪

Gafurov’s research is centered on the development and application of magnetic resonance methods for studying liquids, solids, and biological objects. His work has significantly advanced the understanding of electron paramagnetic resonance (EPR) and double electron-nuclear resonance (ENDOR) in various materials, including liquids and oil-dispersed systems. He has also contributed to the development of equipment for high-field experiments on dynamic nuclear polarization for biological applications, during his postdoctoral fellowship at Goethe University in Frankfurt, Germany.

Accolades and Recognition🏆

Marat Gafurov’s contributions to science and education have been widely recognized. He has received numerous accolades, including the Badge “For Merit in Education” from the Ministry of Education and Science of the Republic of Tatarstan in 2023. Additionally, he has been awarded multiple diplomas from the rector and administration of KFU for his excellence in scientific and teaching activities, as well as a diploma from the Administration of the Executive Committee of Kazan for his scientific achievements.

Impact and Influence👨‍🏫

Gafurov’s impact extends beyond his research contributions. He has supervised over 40 final qualifying works (bachelor’s, master’s, and Ph.D.) in various fields, including physics, electronics, and medical physics. Currently, he supervises two Ph.D. students, one master’s student, and two bachelor’s students. His role as an expert for the Russian Academy of Sciences (RAS), the Russian Science Foundation (RSF), and other prestigious organizations highlights his influence in the scientific community.

Legacy and Future Contributions🚀

Marat Gafurov’s legacy is defined by his dedication to advancing scientific knowledge and fostering academic growth. As the head of multiple interdisciplinary research projects and grants at KFU, he continues to push the boundaries of condensed matter physics and its applications in medical and biological fields. His ongoing projects, such as the development of biocompatible materials for bone tissue diseases and the creation of modern experimental stations for synchrotron and neutron research, underscore his commitment to innovation and excellence.

Publication Top Noted:

Triparna Das | Sustainability and Recycling of FRPs | Best Researcher Award

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Ms. Triparna Das | Sustainability and Recycling of FRPs | Best Researcher Award

Fare Labs Pvt Ltd – India

Professional Profiles:

🌟 Triparna Das: Pioneering Scientist in Metal Residue Analysis and Environmental Chemistry

Early Academic Pursuits 🌍

Triparna Das, hailing from Gurgaon, India, has always demonstrated an unyielding passion for science. Fluent in English, Bengali, and Hindi, she laid a strong academic foundation by earning her Bachelor’s degree in Chemistry, Microbiology, and Zoology from the University of Calcutta (2012-2015). She then pursued a Master’s degree in Forensic Science at Banaras Hindu University (2015-2017), where she honed her analytical and investigative skills.

Advanced Research and Development 🧪

Triparna’s journey in research and development began with her role as a UGC Senior Research Fellow at CSIR-Indian Institute of Toxicology Research (2019-2024). Here, she excelled in method development, validation, and troubleshooting for various sophisticated instruments including HPLC, GC, ICP-MS, and LC-MS/MS. Her work encompassed qualitative and quantitative analysis of food, water, and soil samples to detect pollutants and contaminants.

Environmental and Analytical Expertise🌱

Triparna’s research extends to environmental chemistry, where she has synthesized various adsorbents for wastewater remediation and conducted detailed studies using FTIR, TGA, SEM-EDAX, and other advanced characterization techniques. She applied design of experiments (DOE) and multivariate analysis in her experimental designs, ensuring high-quality and reliable results.

Professional Endeavors🏅

Currently, Triparna serves as a Scientist C in the Metal Residue Analysis Division at Fare Labs Pvt Ltd., Gurgaon. Since June 2024, she has been instrumental in method development and validation according to EC 333:2007, contributing to proficiency testing programs, inter-laboratory comparisons, and internal quality checks. Her commitment to laboratory operations adheres to GLP and NABL guidelines, ensuring precision and excellence in her work.

Published Works and Contributions📚

Triparna’s research contributions are well-documented in prestigious journals. Notable publications include:

  • Remediation of heavy metals using lignin-montmorillonite hydrogel composites (ACS Sustainable Resource Management, 2024)
  • Efficient removal of cationic dyes using lemon peel-chitosan hydrogel composites (Under review)
  • Synthesis of biomass-derived activated carbons for heavy metal removal (ACS Omega, 2022)
  • Classification of edible oils using FTIR and fluorescence spectroscopy (Journal of Food Composition and Analysis, 2024)
  • Heavy metal contaminants in prepared noodles (Environmental Science and Pollution Research, 2021)

Recognitions and Certifications🏆

Triparna’s expertise is further recognized through her qualification for UGC NET-JRF in Forensic Science (2018). She has also participated in significant workshops and certifications, including ISO/IEC 17025:2017 and Quality Management System for Research and Regulatory Laboratories, enhancing her proficiency in quality assurance and laboratory competence.

Technical and Soft Skills🔬

Triparna’s technical skills encompass a wide range of analytical techniques and instruments, including FTIR, TGA, DLS, LC-MS/MS, GC-MS/MS, HPLC, GC, ICP-MS, ICP-OES, AAS, AFS, and DMA. She is proficient in various software tools such as Statistica, Chem-draw, Design Expert, Origin, and Metaboanalyst. Her soft skills, characterized by hard work, responsibility, teamwork, and flexibility, complement her technical abilities, making her a versatile and effective scientist.

Legacy and Future Contributions🚀

Triparna Das continues to impact the field of environmental chemistry and metal residue analysis with her innovative research and dedication to scientific excellence. Her future endeavors promise to contribute significantly to sustainable environmental practices and advanced analytical methodologies.

Publication Top Noted:

Paper Title: Comparative Analysis of Edible Oils Classification Using Fourier Transform Infrared and Fluorescence Spectroscopy Coupled with Chemometrics

  • Authors: Shiv, K., Singh, A., Prasad, L.B., Bharty, M.K., Das, T.
  • Journal: Journal of Food Composition and Analysis
  • Volume: 129
  • Pages: 106056
  • Year: 2024

Paper Title: Evaluation of Heavy Metal Contaminants in Prepared Noodles: Source Allocation and Health Risk Assessment

  • Authors: Thakur, R.S., Kumar, A., Lugun, O., Gupta, N., Patel, D.K.
  • Journal: Environmental Science and Pollution Research
  • Volume: 30
  • Pages: 25181–25192
  • Year: 2023

Paper Title: Synthesis of Biomass-Derived Activated Carbons and Their Immobilization on Alginate Gels for the Simultaneous Removal of Cr(VI), Cd(II), Pb(II), As(III), and Hg(II) from Water

  • Authors: Kumar, A., Das, T., Thakur, R.S., Ansari, N.G., Patel, D.K.
  • Journal: ACS Omega
  • Volume: 7
  • Pages: 41997–42011
  • Year: 2022

Hardik Vyas | Friction Welding | Best Researcher Award

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Dr. Hardik Vyas | Friction Welding | Best Researcher Award

Institute For Plasma Research - India

Professional Profiles:

Early Academic Pursuits

Hardik Vyas embarked on his academic journey with a focus on engineering, demonstrating early promise in his field. He completed his Bachelor of Technology in Mechatronics Engineering from Ganpat University, achieving a commendable 68.13% in 2010. His pursuit of knowledge continued at the same university, where he later earned a Master of Technology in Mechanical Engineering, specializing in Advanced Manufacturing Techniques, with a CPI of 7.86 in 2012. These formative years laid a solid foundation for Hardik’s deep dive into mechanical processes and manufacturing, setting the stage for a significant academic and professional career.

Professional Endeavors

After completing his master’s degree, Hardik did not stop his academic pursuit; he went on to obtain a Ph.D. from Pandit Deendayal Energy University in 2022. His research during the Ph.D. focused on the "Investigation on Friction Welding of Pipes for Dissimilar Metals," a topic that not only addressed complex engineering problems but also positioned him as a specialist in the niche field of welding technology for dissimilar materials.

Contributions and Research Focus on Friction Welding

His primary research focus has been on the friction welding of dissimilar metals, an area critical to industries like aerospace, automotive, and construction, where material integrity and innovative joining techniques are crucial. Throughout his career, Hardik has contributed significantly to this field, as evidenced by his numerous peer-reviewed journal publications and conference proceedings. His notable works include studies on the microstructure evolution, mechanical properties of welded joints, and non-destructive inspection techniques, which have added valuable insights into the body of knowledge on manufacturing processes.

Accolades and Recognition

His academic and professional career, Hardik has received various accolades that highlight his commitment and contribution to the field of mechanical engineering. His research outputs, including nine publications across prestigious journals and international conferences, underscore his standing in the academic community. These publications not only showcase his expertise but also his ability to collaborate with other researchers to push the boundaries of what is known about friction welding processes.

Impact and Influence

The impact of Hardik's work is profound, influencing both academic circles and industry practices. His research on welding techniques for dissimilar metals is pivotal for developing more efficient and robust manufacturing processes. The practical applications of his work are vast, potentially leading to improvements in product durability and performance across various industries. Moreover, his contributions help in the advancement of materials science, particularly in understanding how different materials behave when joined under extreme conditions.

Legacy and Future Contributions

Looking to the future, Hardik Vyas is poised to continue his impactful research and development in mechanical engineering. His academic legacy, characterized by a rigorous pursuit of knowledge and innovation in manufacturing techniques, paves the way for future research in the field. As a beacon of academic excellence and technical expertise, Hardik aims to mentor the next generation of engineers and researchers, fostering an environment of inquiry and innovation that transcends traditional disciplinary boundaries.

Citations:

                   Citations            131
                    h-index                 6
                  Documents            9

Temjennaro Jamir | Computational Fluid Dynamics | Best Researcher Award

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Dr. Temjennaro Jamir | Computational Fluid Dynamics | Best Researcher Award

St John College, Dimapur, Nagaland - India

Professional Profiles:

Early Academic Pursuits

Temjennaro Jamir embarked on her academic journey in the field of mathematics, showcasing an early aptitude and passion for the subject. Her educational foundation was laid at Livingstone Foundation Hr. Sec. School, Dimapur, where she excelled in Mathematics, Science, Social Science, Hindi, and Information Technology, securing an impressive 86% in her HSLC examinations. Her academic excellence continued through her HSSLC years at Pranab Vidyaphit Hr. Sec. School, Dimapur, focusing on Mathematics, Physics, Chemistry, Computer Science, and English, achieving a commendable 76%.

Jamir’s undergraduate studies at Fazl Ali College, Mokokchung, were marked by distinction as she pursued a Bachelor of Science with a focus on Mathematics (Honors), Physics, and Computer Science, graduating as a Gold Medalist with a 6.04/7 CGPA. Her passion for mathematics propelled her to pursue a Master’s degree in Mathematics from Kohima Science College, Jotsoma, where she specialized in Fluid Dynamics and further distinguished herself as a Gold Medalist with an 8.89/10 CGPA. This solid academic foundation was pivotal in her qualifying for the prestigious CSIR-NET with JRF (NET)-UGC in Mathematical Sciences in 2024, setting the stage for her doctoral research.

Professional Endeavors

She professional career is as illustrious as her academic one. Starting in 2019, she served as a lecturer at Kohima Science College, Jotsoma, for four years, where she was deeply involved in teaching and mentoring students in advanced mathematical concepts. Her teaching stint extended to Theta Tutorial coaching institute in Kohima, Nagaland, where she imparted knowledge to aspiring students for two years. By January 2024, Jamir had taken up a significant role as an Assistant Professor in the Department of Mathematics at St. John College, Dimapur, Nagaland, India, where she continues to contribute to the academic community.

Contributions and Research Focus on Computational Fluid Dynamics

Temjennaro Jamir’s research contributions are primarily focused on the field of Fluid Dynamics, with a special interest in Magnetohydrodynamics (MHD), heat and mass transfer, and the effects of Soret and Dufour in porous mediums. Her work encompasses the study of unsteady MHD slip flow, heat and mass transfer over permeable stretching surfaces, and the investigation of various effects such as radiation absorption, viscous dissipation, and variable fluid properties on MHD flows. Her research has led to significant publications in esteemed journals and presentations at international conferences, highlighting her contributions to the field.

Accolades and Recognition

Throughout her academic and professional journey, Jamir has been recognized for her contributions and excellence. Her distinction as a Gold Medalist in both her Bachelor’s and Master’s degrees is a testament to her dedication and mastery over her subject. Her selection for the JRF (NET)-UGC further underscores her competence and potential in mathematical research.

Impact and Influence

Jamir’s work in the field of mathematics, particularly in Fluid Dynamics and its applications, stands as a significant contribution to both theoretical and applied mathematics. Her research has implications for various industries, including aerospace, automotive, and environmental engineering, where understanding fluid behavior under different conditions is crucial. Her dedication to teaching and mentoring the next generation of mathematicians ensures that her impact extends beyond her research, fostering a love for mathematics and scientific inquiry among students.

Legacy and Future Contributions

Looking ahead, Temjennaro Jamir is poised to make further contributions to the field of mathematics and its application to real-world problems. Her ongoing research and potential future studies will likely delve deeper into complex fluid dynamics problems, exploring new dimensions of heat and mass transfer, MHD, and the interplay of various physical effects in fluid flow. Through her continued excellence in teaching and research, Jamir is set to leave a lasting legacy in the academic community, inspiring future scholars and researchers to pursue excellence in their endeavors.

Citations:

                   Citations              13
                    h-index                  2
                  Documents             6

Notable Publications:

Naufa Hanif | Drug Discovery | Best Researcher Award

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Mr. Naufa Hanif | Drug Discovery | Best Researcher Award

Cancer Chemoprevention Research Center - Indonesia

Professional Profiles:

Early Academic Pursuits

Naufa Hanif embarked on his scientific journey with a deep-rooted passion for understanding the intricacies of pharmaceutical chemistry. Completing his master’s degree at the Graduate School of Health Sciences, Faculty of Pharmacy, Hacettepe University in Türkiye, Naufa honed his expertise in computational chemistry, a field where he would make significant strides. His thesis, a pivotal moment in his academic career, revolved around identifying novel drug candidates targeting Indoleamine 2,3-dioxygenase (IDO1) in their apo forms. This research laid the groundwork for his future explorations into the realms of medicinal chemistry and cancer chemoprevention.

Professional Endeavors

Since joining the Cancer Chemoprevention Research Center (CCRC) at UGM in January 2020, Naufa has dedicated his career to the advancement of pharmaceutical research. With a solid foundation in computational and medicinal chemistry, he has led several projects with a focus on discovering novel therapeutic agents. His proficiency in molecular dynamics (MD) simulations and MM-GBSA analysis, coupled with his experience using software like NAMD and VMD, has propelled forward the field of drug discovery, specifically in identifying apo-IDO1 inhibitors.

Contributions and Research Focus on Drug Discovery

He research articulates a seamless blend of genomics, cheminformatics, and bioinformatics, illustrating the complexity of diseases and the requisite multifaceted approach to drug development. His work on glioblastoma treatment, using the curcumin analog CCA-1.1, published in Scientific Reports, underscores his innovative approach to targeting disease. Naufa's research not only advances the scientific community’s understanding of cancer chemoprevention but also contributes significantly to the pharmaceutical field's quest for new, effective treatments.

Accolades and Recognition

His scientific excellence is recognized through various accolades and his contributions to peer-reviewed journals. With eight publications in SCI and SCIE-indexed journals and a similar count in Scopus, Web of Science, and PubMed indexes, his research has garnered attention worldwide. His h-index and citation index reflect the impact of his work, and the recognition from the Journal of Biomolecular Structure and Dynamics for his article on IDO1/TDO2 dual inhibitors highlights his role in advancing drug discovery methodologies.

Impact and Influence

Beyond his publications, Naufa's role as a peer reviewer for genomics and bioinformatics journals has allowed him to influence the direction of research in his field significantly. His dedication is also evident through his involvement in 14 research projects, showcasing his commitment to fostering advancements in pharmaceutical sciences. His scholarly work, recognized by a citation index of 21 and involvement in over 23 editorial appointments, positions him as a leading figure in his domain.

Legacy and Future Contributions

He legacy is characterized by his unwavering commitment to the pursuit of knowledge and the betterment of human health through scientific innovation. His determination, patience, and desire to impact the pharmaceutical field positively have set a precedent for future scientists. Looking ahead, Naufa aims to delve deeper into drug discovery, particularly focusing on diseases that have eluded cure or effective treatment. His future contributions promise to advance our understanding of medicinal chemistry and computational chemistry's role in developing next-generation therapeutic agents.

Citations:

                   Citations              45
                    h-index                 4
                   i10-index               1

Notable Publications:

Khurshid Malik | Fiber Reinforcement in Composites | Best Researcher Award

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Dr. Khurshid Malik | Fiber Reinforcement in Composites | Best Researcher Award

Linkoping University - Sweden

Professional Profiles:

Early Academic Pursuits

Khurshid Malik embarked on his academic journey with a strong foundation in mechanical engineering. He pursued a Diploma in Mechanical Engineering from Govt. Polytechnic College, Jodhpur, India, followed by a B. Tech. in Mechanical Engineering from The Institution of Engineers, India. This provided him with essential theoretical knowledge and practical skills, setting the stage for his future academic and professional endeavors.

Professional Endeavors

Malik's professional journey began with significant roles in the industry, where he gained valuable experience in maintenance engineering and project management. At Air Liquide Ltd, India, he served as a Maintenance Engineer – Mechanical, focusing on analyzing reliability problems and ensuring equipment efficiency within cost constraints. Subsequently, at Essar Steel India Ltd, he excelled as an Assistant Manager, overseeing project activities, fabrication, erection, and commissioning of various equipment, showcasing his proficiency in industrial operations and management.

Contributions and Research Focus on Fiber Reinforcement in Composites

Driven by a passion for research and innovation, Malik transitioned into academia to pursue advanced studies in mechanical engineering. He completed his Master of Science in Mechanical Engineering from the International Islamic University Malaysia, where his research focused on experimental investigations of biomimetic surface roughness effects on swept-back tapered NACA 4412 wings. This research showcased his interdisciplinary approach, integrating experimental studies in a wind tunnel with advanced numerical simulations, contributing to a deeper understanding of aerodynamic behavior.

Subsequently, during his Ph.D. at Universiti Teknologi PETRONAS, Malaysia, Malik's research primarily centered on nanomaterials, particularly graphene, and fiber-reinforced composites. His doctoral dissertation explored novel approaches to enhance the mechanical performance of natural fiber-reinforced epoxy composites for structural applications. He led multiple projects focusing on the development and characterization of these composites, demonstrating his expertise in materials science and mechanical testing.

Accolades and Recognition

Throughout his academic journey, Malik has received recognition for his outstanding contributions to research. He has authored numerous papers published in esteemed ISI journals, with several as the first author. His research has been acknowledged through grants and awards, including national and international research grants, highlighting the significance and impact of his work in the field of composite materials and aerodynamics.

Impact and Influence

Malik's research contributions extend beyond academic publications. He has actively mentored undergraduate students, sharing his expertise in composite materials and fostering a passion for research among the next generation of engineers. His interdisciplinary approach to research, combining experimental and numerical techniques, has advanced the understanding of complex phenomena in aerodynamics and material science, contributing to the development of innovative solutions in these fields.

Legacy and Future Contributions

Looking ahead, Malik envisions continuing his impactful research journey, delving deeper into the realms of nanomaterials, composite materials, and aerodynamics. With a solid foundation in academia and industry, coupled with a track record of research excellence, he aims to spearhead cutting-edge initiatives aimed at enhancing the mechanical properties of materials, improving energy absorption capacities, and developing sophisticated modeling techniques. Malik's legacy lies in his commitment to pushing the boundaries of knowledge and driving meaningful advancements that address real-world challenges in engineering and beyond.

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