Vimalan Mark | Nano Materials | Best Researcher Award

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Dr. Vimalan Mark | Nano Materials | Best Researcher Award

Saveetha School of Engineering, India

Author Profile

Early Academic Pursuits 📚

Dr. M. Vimalan’s academic journey began with his dedication to physics, starting with a B.Sc. in Physics from Madurai Kamaraj University in 2000, where he graduated with First Class honors. His thirst for knowledge led him to pursue an M.Sc. in Physics at Loyola College, Chennai, under the University of Madras. Graduating with First Class honors in 2002, Dr. Vimalan’s academic excellence was evident early on. His continuous pursuit of knowledge culminated in a Ph.D. in Physics in 2008, from Loyola College, Chennai, where he worked under the guidance of Dr. C. K. Mahadevan. His doctoral research titled “Investigations on the Growth and Characterization of Alanine Complex Nonlinear Optical Crystals” contributed significantly to the field of nonlinear optics, and his dissertation highlighted his ability to merge theoretical and experimental physics. 🎓✨

Professional Endeavors 🏢

Dr. Vimalan’s career spans over 20 years, showcasing his immense contribution to research and education. After completing his Ph.D., he worked as a Research Associate at the Council of Scientific and Industrial Research (CSIR), under the mentorship of Dr. C. K. Mahadevan from 2008 to 2011. During this tenure, Dr. Vimalan contributed to the synthesis and characterization of ZnO–ZnS Nano Composite, which was crucial in fabricating solar cell technology. His work on nanomaterials helped open new possibilities for solar energy harvesting, a field of growing importance in today’s energy-conscious world. 🌞🔬

Dr. Vimalan’s professional expertise spans multiple areas of physics, with a particular focus on material science and nonlinear optics. His time as a researcher in Loyola College, Chennai, between 2002 and 2008 further solidified his foundation in experimental and theoretical research in physics. These years shaped him into a dedicated scientist with a focus on making significant contributions to both scientific literature and real-world applications. 🧪💡

Contributions and Research Focus 🔍

Dr. Vimalan’s research focus primarily revolves around nonlinear optical crystals and nanomaterials. His investigations into the growth and characterization of Alanine Complex Nonlinear Optical Crystals provided insights into their potential applications in optics, such as light modulation and waveguiding. This work was fundamental in understanding the properties of materials at a molecular level, leading to better performance in optical devices.

His research has extended into the field of nanotechnology, particularly in the synthesis of composite nanomaterials like ZnO–ZnS. These materials have various applications, including solar energy harvesting, sensing technologies, and photovoltaics. By working on the synthesis and characterization of these composites, Dr. Vimalan has contributed to advancing sustainable energy solutions. 🌱🔋

Accolades and Recognition 🏆

Dr. Vimalan has earned recognition not just for his contributions to the field of physics, but also for his dedication and commitment to research and development. His tenure at CSIR and his academic accomplishments have placed him among the forefront researchers in his field. His work on nonlinear optical crystals has been widely cited and continues to inspire both young researchers and seasoned scientists. His efforts in advancing the field of solar cell technology with his work on nanomaterials have also led to his recognition in the scientific community as a key contributor to the ongoing advancements in green energy technologies. 🌍✨

Impact and Influence 🌐

Dr. Vimalan’s research has had a lasting impact on both theoretical physics and applied science. His contributions to nanomaterials have influenced not only the academic field but also industry practices in solar energy and optical technologies. The work on ZnO-ZnS composites has contributed to the development of more efficient solar cells, which are crucial in the context of climate change and sustainable energy solutions.

As an educator and mentor, Dr. Vimalan has shaped the careers of many students and researchers, imparting the knowledge and skills required to navigate the world of cutting-edge physics. His influence extends beyond his own research; through his teaching, he has empowered students to embark on their own scientific journeys, ensuring that his legacy will live on through the future generations of physicists. 👨‍🏫🌟

Legacy and Future Contributions 🔮

Dr. Vimalan’s journey in physics is far from over. As an Associate Professor at Anurag University, he continues to inspire and lead the next generation of scientists. His work on nanomaterials, solar energy, and nonlinear optics will likely continue to evolve, with new research focused on sustainable technologies and the development of next-generation materials for a wide range of applications. His passion for advancing scientific knowledge and his unyielding curiosity ensure that he will continue to push the boundaries of physics, contributing to the global scientific community for years to come. 🌍💡

In conclusion, Dr. M. Vimalan’s academic journey, professional contributions, and research focus have significantly shaped the fields of physics and material science. His innovative work in nonlinear optics and nanotechnology continues to have a profound impact, driving the development of new, sustainable technologies and educating future scientists who will build on his legacy. 🌱🔬🎓

Citations

A total of 1,633 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        1,633
  • h-index          96
  • i10-index       24

Notable Publications 

  • Title: Impact on bandgap, electrical and magnetic properties of SnO2 nanoparticles by cerium and samarium
    Authors: Anuja, E., Potheher, I.V., Meena, M., Vimalan, M.
    Journal: Journal of Molecular Structure
    Year: 2025.
  • Title: Synthesis and enhanced electrical properties of Ag-doped α-Fe2O3 nanoparticles in PVA films for nanoelectronic applications
    Authors: Vijayaraghavan, S., Rajasekaran, A., Alodhayb, A.N., Vimalan, M., Ganesh Kumar, K.
    Journal: Materials Science and Engineering: B
    Year: 2025.
  • Title: Mitigating the interface defects influence on SnSe solar cells using optimized electron transport layer
    Authors: Younsi, Z., Bencherif, H., Meddour, F., Mark, V., Perumal, R.
    Journal: Discover Materials
    Year: 2024.
  • Title: Performance enhancement of Flexible quantum dot solar cells via establishing efficient band alignment and high interface electric field
    Authors: Aouni, Q., Kouda, S., Younsi, Z., Mark, V., Mohammad, M.R.
    Journal: Solar Energy
    Year: 2024.
  • Title: Zn/Ni catalyst facilitates the oxidation of ethyl lactate to ethyl pyruvate by selective progressions on mesoporous SBA-15 support by a continuous processing approach
    Authors: Hariharan, A., Tamizhdurai, P., Kavitha, C., Abbas, M., Alreshidi, M.A.
    Journal: Molecular Catalysis
    Year: 2024.

Shweta Rathee | Food nanotechnology | Best Researcher Award

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Dr. shweta Rathee | Food nanotechnology | Best Researcher Award

NIFTEM-K, India

Author Profile

🎓 Early Academic Pursuits

Dr. Shweta Rathee’s academic journey showcases a passion for food science and technology from the very beginning. After completing her B.Tech, she pursued her M.Tech in Food Technology and Management at NIFTEM-K, one of the premier institutes in the field, from 2012 to 2014. Her dedication and academic excellence were reflected early on, as she cleared the GATE examination in 2012 with a stellar percentile of 96%, securing her admission into NIFTEM-K with a two-year fellowship.Building on this strong foundation, Shweta embarked on a research-centric path, leading her to pursue a Ph.D. in Food Science and Technology from NIFTEM-K. Her doctoral studies, which span from 2018 to 2024, have primarily focused on the emerging fields of food nanotechnology and 3D printing—both cutting-edge areas poised to revolutionize the food industry.

💡 Professional Endeavors

Shweta’s professional career is just as noteworthy as her academic pursuits. After her M.Tech, she worked as a Junior Research Fellow (JRF) at the prestigious National Agri-Food Biotechnology Institute (NABI) from 2015 to 2017. During this time, her research focused on enzyme immobilization, specifically aimed at enhancing the reusability of biocatalysts. Her work was not only rigorous but also collaborative, leading to 1 publication and 2 poster presentations at both national and international conferences.In addition to her research role, she qualified as a Junior Food Analyst, securing an impressive All India Rank (AIR) of 33. This role further cemented her credentials as an expert in food science, allowing her to apply theoretical knowledge in a practical setting, thus contributing significantly to her skill set.

🔬 Contributions and Research Focus

Dr. Shweta Rathee’s research is primarily centered around the rapidly evolving fields of food nanotechnology and 3D printing. Both these areas hold immense potential for transforming how food is processed, packaged, and consumed. Food nanotechnology, in particular, promises innovations in food safety, nutrient delivery, and shelf-life extension, while 3D printing in food technology is paving the way for personalized nutrition and sustainable food practices.At the core of her Ph.D. research is the exploration of nanomaterials and their application in food science. Nanotechnology offers the advantage of precision at the molecular level, allowing for better control over the texture, taste, and nutritional profile of food products. Her contributions to 3D printing of food also represent the future of customized food manufacturing, where food can be tailored to the individual needs and preferences of consumers.

🏆 Accolades and Recognition

Shweta’s academic and research excellence has earned her several prestigious awards and fellowships. Apart from her GATE fellowship (2012-2014), she was awarded the JRF fellowship during her tenure at NABI (2015-2017). However, her most significant achievement came in the form of a UGC Fellowship (2018-2024), granted for her doctoral research. This fellowship, with an astounding percentile of 99.904, underscores her brilliance and dedication to advancing food technology.Shweta’s consistent drive for excellence is evident in her achievements, both in academia and research. Her UGC Fellowship, spanning five years, provided the resources and platform to delve deeply into her research, resulting in multiple publications and presentations at various scientific forums.

🌍 Impact and Influence

Shweta’s work in food nanotechnology and 3D printing is not just academically enriching but has far-reaching implications for the global food industry. Nanotechnology, by enhancing food safety and quality, has the potential to revolutionize food production and distribution systems worldwide. Meanwhile, 3D printing in food technology is set to transform food processing by enabling on-demand production and the creation of personalized food products.Shweta’s research on enzyme immobilization further contributes to the sustainability of food processing industries, by improving the efficiency of biocatalysts, thus reducing waste and increasing the cost-effectiveness of food manufacturing processes. Her interdisciplinary expertise allows her to navigate the complex landscapes of biotechnology, food science, and sustainability with ease.

🌟 Legacy and Future Contributions

As Shweta Rathee continues her journey in Food Science and Technology, her contributions will undoubtedly leave a lasting impact on both academia and the industry. Her work in nanotechnology and 3D printing places her at the forefront of innovation, with the potential to address global challenges such as food security, nutrition, and sustainable food production.Her academic rigor, combined with hands-on experience in research projects, has equipped her with the skills necessary to lead future innovations in food science. The combination of her technical expertise, research achievements, and industry-relevant experience positions her to be a leader in food technology research, driving forward sustainable practices, innovative solutions, and scientific advancements in the food sector.In conclusion, Dr. Shweta Rathee exemplifies the qualities of a dedicated researcher and visionary in the field of food science. Her journey, marked by consistent excellence and a forward-thinking approach, promises to continue making significant contributions to food technology and its applications in the real world.

Citations

A total of 177 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         177
  • h-index           13
  • i10-index        7

Notable Publications 

  • Smart alginate nanomaterials: Revolutionizing food across delivery, preservation, packaging, safety, and waste upcycling
    Authors: Rathee, S., Singh, K.R., Mallick, S., Ojha, A., Singh, R.P.
    Journal: Carbohydrate Polymer Technologies and Applications
    Year: 2024.
  • Properties of nanomaterials for utilization in the food industry
    Authors: Nagpure, G., Rathee, S., Singh, K.R.B., Singh, J., Singh, R.P.
    Book Chapter: Nanobiotechnology for Food Processing and Packaging
    Year: 2024.
  • Biogenic engineered nanomaterials for enhancing bioavailability via developing nano-iron-fortified smart foods: advances, insight, and prospects of nanobionics in fortification of food
    Authors: Rathee, S., Ojha, A., Upadhyay, A., Ali, S., Shukla, S.
    Journal: Food and Function
    Year: 2023.
  • Revolutionizing goat milk gels: A central composite design approach for synthesizing ascorbic acid-functionalized iron oxide nanoparticles decorated alginate-chitosan nanoparticles fortified smart gels
    Authors: Rathee, S., Ojha, A., Singh, K.R., Singh, J., Shukla, S.
    Journal: Heliyon
    Year: 2023.
  • Modeling the Influence of Pearl Millet on High-Fiber Bread: An Investigation into Nutrition, Microstructure, Thermal Stability, Crystallinity, Rheology, and Glycemic Response
    Authors: Rathee, S., Singh, R., Paul, P.K., Singh, K.R.B., Singh, J.
    Journal: Starch/Staerke
    Year: 2023.