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Sanjit Debnath, Agriculture, Best Innovator Award

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Dr. Sanjit Debnath: Lecturer at Rabindranath Thakur Mahavidyalaya, India

Dr. Sanjit Debnath is an accomplished researcher and educator with a robust background in Mycology and Plant Pathology. He holds a Ph.D. in Botany from Tripura University, where his research focused on the nutritional, medicinal, and antimicrobial properties of wild edible mushrooms found in the Northeast of India. Dr. Debnath’s academic and research work bridges the gap between basic biological sciences and applied biotechnology, specifically in sustainable mushroom cultivation, fungal diversity, and microbial roles in agriculture. His expertise is well recognized through various national and international collaborations, including 37 published works and the prestigious SITARE-GYTI Appreciation Award from the Ministry of Science and Technology. In addition to his research, Dr. Debnath has over nine years of experience in teaching, mentoring students at both undergraduate and graduate levels, and contributing to academic development in various universities and colleges across Tripura, India.

Online Profiles

Dr. Debnath is also active on platforms like ResearchGate and Google Scholar, where his research impact can be further explored. You can connect with him for academic inquiries, collaborations, or consulting on research projects related to mycology, botany, or agriculture.

Dr. Debnath has 37 published works, including 28 research articles, 7 review articles, and 2 book chapters. His research is well-recognized in the academic community, as evidenced by his 236 citations on Google Scholar and 218 citations on ResearchGate. His h-index stands at 10 (Google Scholar) and 9 (ResearchGate), highlighting the significant impact of his work. Additionally, his i10-index is 10 on Google Scholar and 8 on ResearchGate. These metrics demonstrate the growing influence and relevance of Dr. Debnath’s contributions in the fields of mycology, plant pathology, and agricultural biotechnology.

Education

Dr. Debnath’s academic journey is characterized by dedication to botanical sciences, specifically Mycology and Plant Pathology. He completed his B.Sc. in Botany from Tripura University in 2011, followed by an M.Sc. in Botany with a specialization in Mycology and Plant Pathology in 2013. His Ph.D. was awarded in 2020 after extensive research on wild edible mushrooms found in the Northeast region of India. His doctoral thesis focused on nutritional and medicinal properties of these mushrooms, aiming to develop sustainable cultivation protocols and highlight their potential for local healthcare and nutrition. Through his academic tenure, he has been awarded several scholarships and grants for research and training, including prestigious fellowships for his projects on mushroom biology and plant-pathogen interactions.

Research Focus

Dr. Debnath’s primary research interests lie in the interdisciplinary fields of Mycology, Plant Pathology, and Microbial Ecology. His major focus is on the identification, characterization, and cultivation of wild edible mushrooms, particularly those native to the Tripura region, where he investigates their nutritional, antioxidant, and antibacterial properties. His research aims to not only uncover the biochemical and pharmacological potential of these fungi but also to contribute to sustainable agriculture by developing viable cultivation protocols for wild mushrooms. Additionally, he is interested in understanding the role of microbial endophytes and mycorrhiza in plant growth and disease resistance. Through his work, Dr. Debnath seeks to blend traditional ecological knowledge with modern biotechnology for addressing both environmental sustainability and human health.

Experience

Dr. Debnath has accumulated over nine years of experience in both research and teaching across various prestigious institutions. He served as a Guest Lecturer at Tripura University for five years, where he taught core subjects in Botany and mentored students on research projects. His guest lectureships at various colleges across Tripura, including MBB College, Swami Vivekananda Mahavidyalaya, and Rabindranath Thakur Mahavidyalaya, have contributed to his strong foundation in curriculum development, practical training, and student mentorship. Dr. Debnath has also actively participated in the administration and coordination of research labs, offering training on mushroom cultivation and plant health management. His broad teaching experience, coupled with his research expertise, makes him well-equipped to impart advanced knowledge in botanical sciences and related fields.

Research Timeline & Activities

Dr. Debnath’s research journey began in 2013 at the State Biotech Hub, Tripura University, where he undertook a traineeship on biotechnological applications in agriculture. Following that, he worked as a Junior Research Fellow (JRF) and later as a Senior Research Fellow (SRF) at Tripura University, where he investigated the cultivation and bioactive properties of wild edible mushrooms from Tripura’s forests. Over the years, he has expanded his research to include projects on microbial roles in rice yield management and genomic mapping of MDR-TB hotspots across Tripura, Assam, and Sikkim. His research has garnered national attention, and he has submitted multiple funded project proposals, such as those to BIRAC and the Tripura Biodiversity Board.

Awards & Honors

Dr. Debnath’s groundbreaking research on wild edible mushrooms has earned him the prestigious SITARE-Gandhian Young Technological Innovation (GYTI) Appreciation Award in 2020. This award was conferred by Dr. Harsh Vardhan, India’s Union Minister for Science & Technology, in recognition of his significant contributions to bio-resources and biotechnology. He was also acknowledged for his efforts in developing sustainable cultivation techniques for wild mushrooms, which hold great promise for improving food security and rural livelihoods in Northeast India. Additionally, his research has been recognized by multiple academic and professional organizations, making him an influential figure in the field of agriculture science.

Recent Publications

Dr. Debnath has an extensive publication record with 37 peer-reviewed works, including 28 research articles, 7 review articles, and 2 book chapters. Some of his recent publications focus on the antioxidant and antimicrobial properties of indigenous mushrooms from Tripura and biochemical analyses of medicinal fungi. His works have appeared in prominent journals like Journal of Phytopathology, Vegetos, and International Journal of Agricultural Sciences. Dr. Debnath’s publications, many of which have been cited over 200 times, reflect his ongoing commitment to advancing mycological research, with an emphasis on biological activity, mushroom cultivation, and plant-microbe interactions.

  • Documentation of vegetation with utilitarian aspects from Harishnagar village, Sepahijala District, Tripura, India
    S. Debnath, S. Bardhan, R. Majumdar, S. Bhattacharya
    Journal of Medicinal Plants Studies, 13(2), 45-49, 2025.

  • A Comparative Approach on the Effects of Organic Wastes for the Cultivation of Wild Edible Mushrooms along with Various Substrate Compositions
    R. Saha, K.K. Pandey, S. Debnath, P. Debbarma, A.K. Saha
    Fungal Biotec, 4(1), 75-110, 2024.

  • Spectrum of Bacterial Isolates and Their Antibiogram in Intensive Care Unit (ICU) of Tertiary Care Hospital as a Part of Hospital Acquired Infection (HAI) Surveillance
    J. Deb, S. Debnath, S. Bhattacharya, T. Majumdar
    Annals of the National Academy of Medical Sciences, 60(3), 190-196, 2024.

  • Comparative Contemplation on the Growth, Productivity, and Biological Efficiency of Pleurotus florida Cultivated on Agro-Industrial Waste
    R. Saha, K.K. Pandey, S. Debnath, K. Chakraborty, P. Das, et al.
    Journal of Mycopathological Research, 61(1), 85-89, 2023.

  • Allelopathic Potential of Weed Extracts on Seed Germination and Seedling Growth of Vigna radiata L. Wilzek and Vigna mungo L.
    S. Bhattacharya, T. Saha, S. Debnath, A.K. Saha
    International Journal of Life Sciences Research, 10(2), 13-20, 2022.

Eda Nur Saruhan, Artificial Intelligence, Best Innovator Award

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Dr. Eda Nur Saruhan: Researcher at Koç University, Turkey

Eda Nur Saruhan is a dedicated researcher with a strong interdisciplinary background, combining mechatronic engineering principles with artificial intelligence to innovate in the fields of environmental science and health. She is currently a PhD candidate at Koç University’s Computer Science and Engineering department, where her work focuses on the application of machine learning and data science techniques to solve complex biomechanical and environmental challenges. Eda is passionate about leveraging AI to create sustainable and impactful solutions, bridging engineering and public health domains.

Online Profiles

Google Scholar Profile

As of now, Eda Nur Saruhan has received a total of 24 citations, reflecting the growing impact of her research in the scientific community. She holds an h-index of 2, indicating that at least two of her publications have been cited at least twice, and an i10-index of 2, representing two papers that have received ten or more citations. These metrics demonstrate her contributions to interdisciplinary research at the intersection of artificial intelligence, health, and environmental science.

Education

Eda completed her Bachelor’s degree in Mechatronic Engineering at Yıldız Technical University, graduating in June 2021 with a solid foundation in robotics, control systems, and automation. Currently, she is pursuing her PhD in Computer Science and Engineering at Koç University, where she focuses on integrating AI with environmental and biomedical applications. Additionally, she has enhanced her expertise through the prestigious UNDP SDG AI Lab Data Science Fellowship, which emphasizes data-driven solutions aligned with sustainable development goals.

Research Focus

Her research explores the intersection of artificial intelligence, environmental science, and health, aiming to develop novel AI-based models for forecasting environmental phenomena and analyzing complex biomechanical systems. She investigates scalable AI approaches for air quality prediction, 3D fiber orientation mapping in cardiac tissues, and optical flow methods for fluid dynamics, with an overarching goal of contributing to public health and sustainable environmental monitoring.

Experience

Eda has been a researcher at Koç University for three years, where she has been involved in multiple interdisciplinary projects. Her experience spans AI-driven air quality modeling, microrobot motion analysis, and advanced imaging techniques. Throughout her career, she has collaborated with experts across engineering and biomedical fields, authored several high-impact publications, and presented findings at international conferences, demonstrating strong project leadership and scientific communication skills.

Research Timeline & Activities

Since 2019, Eda’s research trajectory has included working on cutting-edge projects at Koç University involving fluid dynamics measurement using optical flow methods, microrobot control under laminar flow, and AI-based cell classification techniques. She has actively contributed to conferences such as the International Symposium on Flow Visualization and the Manipulation, Automation, and Robotics at Small Scales conference. Her work has progressively advanced from foundational experimental studies to the application of machine learning models in environmental health contexts.

Awards & Honors

Eda’s contributions to research have been recognized with the UNDP SDG AI Lab Data Science Fellowship, highlighting her commitment to sustainable and impactful AI solutions. She has also co-authored influential papers published in reputed journals like IEEE/ASME Transactions on Mechatronics and Cardiovascular Engineering and Technology, reflecting the quality and relevance of her research output.

Recent Publication

One of her notable recent publications is “Scalable AI-Driven Air Quality Forecasting and Classification for Public Health Applications,” published in Discover Atmosphere. This work presents innovative machine learning frameworks designed to provide accurate and scalable air quality forecasts, which are critical for public health decision-making and environmental policy planning. The paper exemplifies her commitment to applying AI for real-world societal benefits.

  • S. Donmazov, E.N. Saruhan, K. Pekkan, S. Piskin
    Review of Machine Learning Techniques in Soft Tissue Biomechanics and Biomaterials
    Cardiovascular Engineering and Technology, 15(5), pp. 522–549, 2024.
    Citations: 12

  • A.A. Demircali, R. Varol, G. Aydemir, E.N. Saruhan, K. Erkan, H. Uvet
    Longitudinal Motion Modeling and Experimental Verification of a Microrobot Subject to Liquid Laminar Flow
    IEEE/ASME Transactions on Mechatronics, 26(6), pp. 2956–2966, 2021.
    Citations: 12

  • E.N. Saruhan, H. Ozturk, D. Kul, B. Sevgin, M.N. Coban, K. Pekkan
    Learning-Enhanced 3D Fiber Orientation Mapping in Thick Cardiac Tissues
    Biomedical Optics Express, 16(8), pp. 3315–3336, 2025.

  • M. Serdar, E.N. Saruhan, K. Pekkan
    Enhancing Particle Image Velocimetry with RAFT and Optical Flow for High-Fidelity Cardiovascular Flow Measurements
    Proceedings of the 21st International Symposium on Flow Visualization (ISFV21), 2025.

  • E.N. Saruhan, M. Serdar, K. Pekkan
    Optical Flow Methods for High-Resolution OCT Analysis of Complex Hemodynamics
    21st International Symposium on Flow Visualization (ISFV21), 2025.

  • T. Duruöz, A. Madayen, E.N. Saruhan, R.H. Zarnaghi, H.H. Gezer, I. Aktas, et al.
    ABS0156 AI-Based Classification of Spondyloarthritides Using the Turkish Patients of ASAS perSpA Dataset: Insights on Clinical Features and Patient Outcomes
    Annals of the Rheumatic Diseases, 84, pp. 2108–2109, 2025.

Alok Kumar Trivedi, Engineering, Innovative Researcher Award

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Dr. Alok Kumar Trivedi: Assistant Professor at KNIPSS Sultanpur, India

Dr. Alok Kumar Trivedi is a highly motivated academic and researcher in the field of mechanical engineering, with a strong specialization in polymer nanocomposites and sustainable materials. With a multidisciplinary background blending mechanical engineering, materials science, and polymer technology, he has developed a comprehensive understanding of biodegradable nanomaterials, especially those derived from natural fibers. Over the years, he has built a solid academic profile through rigorous research, publication in high-impact journals, and practical teaching experience at reputed engineering colleges. His goal is to contribute to sustainable materials development and advanced manufacturing technologies for industrial and environmental applications.

Online Profiles

Google Scholar Profile

Dr. Trivedi actively maintains research visibility through major academic platforms. His Google Scholar profile currently reports 372 citations, an h-index of 7, and an i10-index of 6, reflecting the quality and consistency of his contributions to materials science and nanocomposites. His ResearchGate profile mirrors similar impact, showcasing collaborative research, preprints, and post-publication discussions. These profiles demonstrate his growing influence in the areas of biodegradable composites, nanocellulose research, and additive manufacturing.

Education

Dr. Trivedi is currently a Ph.D. scholar in Mechanical Engineering at Motilal Nehru National Institute of Technology (MNNIT), Allahabad, where he has been engaged since August 2021. His research centers on extracting nanocrystalline cellulose (CNC) from sisal and other natural fibers for use in 3D-printed biodegradable materials. He completed his M.Tech in Foundry Technology from NIT Jamshedpur in 2016, where he conducted research on the pitting corrosion behavior of line pipe steels. He earned his B.E. in Mechanical Engineering from RGPV Bhopal in 2013 with First Division Honors, and completed his early education at Jawahar Navodaya Vidyalaya, scoring well in both 10th and 12th board exams.

Research Focus

His research focuses on the design, development, and analysis of bionanocomposites, particularly nanocellulose-reinforced PLA composites for additive manufacturing. He is investigating how the structure and composition of natural cellulose fibers influence thermal, mechanical, and antibacterial properties in 3D printing applications. Other core research areas include nanomaterials synthesis, polymer composite fabrication, and materials characterization techniques such as SEM, TEM, AFM, and FTIR. His work also explores the optimization of FDM process parameters to improve printed product performance and reduce the environmental impact of plastic waste through biodegradable alternatives.

Experience

Dr. Trivedi has significant experience in both academia and research. He served as an Assistant Professor in the Mechanical Engineering Department at University Institute of Technology – RGPV, Bhopal, and earlier at Oriental College of Technology, where he taught undergraduate courses including Manufacturing Processes, Strength of Materials, and Engineering Materials. Alongside teaching, he mentored students in minor projects and guided them on research methodology. His hands-on experience in materials testing labs and software tools like SolidWorks and Origin has been instrumental in bridging theory with practical application. His academic and research journey reflects his dedication to fostering innovation and knowledge dissemination.

Research Timeline & Activities

From 2021 onward, Dr. Trivedi has been deeply involved in research activities related to sustainable nanocomposites. During his Ph.D., he systematically worked on extraction of CNC from agricultural waste fibers such as sisal, bamboo, and wheat straw, and incorporated these into biodegradable PLA matrices. His work involved interdisciplinary collaboration with experts from mechanical, chemical, and polymer engineering. Key activities included design of experiments for FDM printing, mechanical testing, statistical analysis, and publication writing. He also participated in multiple national and international conferences and symposia, presenting research findings and actively engaging with the research community to share and refine his methodologies.

Awards & Honors

Dr. Trivedi is a four-time GATE qualifier (2014, 2015, 2016, and 2018), showcasing his strong academic foundation in mechanical engineering fundamentals. He has been recognized for publishing in several Q1 journals such as Cellulose, Scientific Reports, and International Journal of Biological Macromolecules. His research has been featured in journals with impact factors as high as 9.9, reflecting the novelty and relevance of his work in sustainable materials. Additionally, his peer-reviewed publications and conference presentations have earned him recognition among peers and mentors, and he has been invited to review manuscripts for journals in materials science and nanotechnology.

Recent Publications

  1. Alok Kumar Trivedi, M.K. Gupta. 3D printed PLA based bionanocomposites with improved mechanical and dynamic mechanical properties: effect of varying CNC reinforcements. Cellulose, 2025, pp. 1-17.

  2. Shubham Kumar Gupta, Alok Kumar Trivedi, M.K. Gupta. Effect of variations in proportions of CNC/TiO2 reinforcements on performance of biodegradable hybrid nanocomposites. Biomass Conversion and Biorefinery, 2024, pp. 1-11.

  3. Alok Kumar Trivedi, M.K. Gupta. A comprehensive review on 3D printing of polymer based composites through FDM: Materials, processing parameters, challenges and future scope. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, 2025. (Under review)

  4. Alok Kumar Trivedi, M.K. Gupta. Effect of FDM Process Parameters on Performance of Printed Products: A Short Review on Current Trends. Nano World Journal, Vol. 9, S1, 2023, pp. S78-S82.

  5. Alok Kumar Trivedi, P.S. Robi, S. Pal. Alloy in Fused Deposition Modeling. In: Recent Advances in Manufacturing Processes and Systems: Select Proceedings, 2022.

Strength for the Innovative Researcher Award

1. Innovations in Sustainable Nanocomposites for Additive Manufacturing

This award recognizes Dr. Alok Kumar Trivedi’s groundbreaking research in the development of biodegradable polymer nanocomposites reinforced with nanocrystalline cellulose (CNC). His work innovatively utilizes natural fibers extracted from agricultural waste such as sisal, bamboo, and wheat straw to produce eco-friendly 3D-printed materials. By enhancing mechanical, thermal, and antibacterial properties, Dr. Trivedi’s research significantly advances the field of sustainable materials and additive manufacturing, providing viable alternatives to conventional plastics and contributing to the global effort of reducing environmental pollution.

2. Excellence in Multidisciplinary Research and Collaboration

Dr. Trivedi is honored for his exceptional ability to integrate diverse fields including mechanical engineering, materials science, polymer technology, and environmental sustainability. His multidisciplinary approach has enabled the successful design, synthesis, and characterization of novel bionanocomposites with enhanced performance characteristics. Moreover, his collaborative work with experts across chemical, mechanical, and polymer engineering disciplines demonstrates his leadership in fostering cross-functional research that pushes the boundaries of knowledge in nanomaterials and green manufacturing technologies.

3. Contributions to Advancing Biodegradable Materials and Green Manufacturing

This award acknowledges Dr. Trivedi’s commitment to environmental stewardship through his research on biodegradable materials and optimization of additive manufacturing techniques. His efforts in extracting nanocrystalline cellulose from natural fibers and incorporating these into polylactic acid (PLA) matrices address critical challenges related to plastic waste management. By refining fused deposition modeling (FDM) process parameters, he has improved the quality and durability of 3D-printed products, thereby advancing green manufacturing methods that hold promise for widespread industrial adoption and sustainable product development.

4. Distinguished Academic and Mentorship Excellence in Engineering

In recognition of Dr. Trivedi’s dedication to education and mentorship, this award celebrates his outstanding contributions as an Assistant Professor and researcher. He has consistently excelled in teaching core mechanical engineering courses such as Manufacturing Processes and Strength of Materials, while guiding undergraduate students through hands-on projects and research methodologies. His ability to connect theoretical knowledge with practical applications in materials testing and design software fosters an enriching learning environment, nurturing the next generation of engineers and innovators.

5. Outstanding Research Impact and Scholarly Excellence in Polymer Nanotechnology

This accolade highlights Dr. Trivedi’s impressive research output reflected in numerous publications in top-tier journals, including Cellulose, Scientific Reports, and the International Journal of Biological Macromolecules. With a growing citation count and active engagement in national and international conferences, he has established himself as a rising authority in the fields of polymer nanocomposites and sustainable materials science. His role as a peer reviewer for respected journals further attests to his scholarly influence and dedication to advancing the scientific community.

Dheeraj Kumar Dhaked, Engineering, Best Innovator Award

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Dr. Dheeraj Kumar Dhaked: Assistant professor (Tenure) at Veermata Jijabai Technological Institute Mumbai, India

Dr. Dheeraj Kumar Dhaked is a dedicated researcher in the field of renewable energy and intelligent power systems, currently serving as a CHANAKYA Postdoctoral Fellow at the Indian Institute of Technology (IIT) Roorkee. With a strong academic foundation backed by a Ph.D. in Electrical Engineering from Rajasthan Technical University, Kota (2023), his work focuses on the integration of battery storage systems, microgrids, and electric vehicles using advanced machine learning and deep learning techniques. With over four years of research and teaching experience and more than 25 journal publications, Dr. Dhaked has made notable contributions to energy system modeling, optimization, and forecasting. He combines a strong technical background with hands-on expertise in Python, MATLAB, and AI tools, bridging the gap between traditional energy systems and modern data-driven approaches.

Online Profiles

Google Scholar Profile

Dr. Dheeraj Kumar Dhaked maintains a strong online research presence with growing impact. According to Google Scholar, he has a total of 361 citations, with 329 citations since 2020. His h-index stands at 10, and his i10-index is 13 overall (11 since 2020), reflecting the consistent quality and relevance of his publications. On Scopus, he has 143 citations and an h-index of 7.

Education

Dr. Dhaked completed his CHANAKYA Postdoctoral training at IIT Guwahati in 2024 and is now continuing advanced research at IIT Roorkee. He earned his Ph.D. in Electrical Engineering in 2023 from Rajasthan Technical University, Kota, with a specialization in Battery Energy Storage Systems (BESS) for Microgrids. Prior to that, he received his M.Tech in Power System Engineering from RTU Kota in 2017 with a dissertation focused on D-FACTS device modeling. His academic journey began with a B.Tech in Electrical Engineering from GITS, Udaipur in 2013. His consistently research-oriented education has laid the foundation for his interdisciplinary work across power systems, renewable integration, and AI-based modeling.

Research Focus

Dr. Dhaked’s research focus lies at the intersection of electrical energy systems, artificial intelligence, and sustainable technologies. His key interests include the development of efficient battery-supported microgrids, integration of renewable energy sources such as solar PV and fuel cells, and advanced modeling for EV charging infrastructure. He is particularly engaged in exploring the use of machine learning (ML), deep learning (DL), and hybrid models like LSTM-CNN for applications such as state of health (SoH) prediction for lithium-ion batteries and power output forecasting. He is also working on the design of digital twins for energy systems and control architectures for DC microgrids, making his work highly relevant for future smart grid and clean energy systems.

Experience

Over the course of his professional career, Dr. Dhaked has accumulated more than four years of hands-on experience in research and academia. He is currently a Postdoctoral Fellow at IIT Roorkee (since April 2024), where he works on developing a digital twin for battery-based EV energy systems under Dr. Jeevanand S. Previously, he completed a postdoctoral term at IIT Guwahati, where he contributed to a project on underwater exploration robotics and energy systems. He has also served as an Assistant Professor at GL Bajaj Institute, Mathura (2022–2023) and SS College of Engineering, Udaipur (2017–2018). He has delivered numerous expert lectures at various academic institutions and served as an external examiner for AKTU exams.

Research Timeline & Activities

Dr. Dhaked’s research timeline reflects a steady progression from conventional power systems to cutting-edge interdisciplinary work. Between 2017–2023, his Ph.D. research addressed battery energy storage integration in microgrids and optimization strategies for renewable systems. In 2023, he began postdoctoral research at IIT Guwahati, contributing to underwater robotics and multi-source energy management. Since 2024, at IIT Roorkee, his focus has shifted toward digital twin technology, AI-driven battery diagnostics, and EV system modeling. He has worked on funded projects, filed patents, developed ML models for SoH estimation, and contributed book chapters and edited volumes with major publishers like Elsevier and Springer. His activities also include conference organization, peer review work, and curriculum development in modern power electronics and AI-based control.

Awards & Honors

Dr. Dhaked has been recognized for his academic excellence and research contributions with several awards and fellowships. He received the Young Researcher Award at the RAISE conference held at HPU Shimla in December 2024. He was selected for the competitive CHANAKYA Postdoctoral Fellowship by both iHub-IIIT Delhi and iHub-IIT Bhilai (chose IIT Roorkee). He also received a research associate offer from NISE Gurugram. He has qualified the GATE exam twice (2014 & 2019), successfully completed the CII-IPATE 2020 exam, and was actively involved in student leadership as Hostel House Secretary during his Ph.D. at RTU. Additionally, he has been a keynote speaker at FDPs on Power Systems and IPR, demonstrating strong engagement in academic outreach.

Recent Journal Publications

  1. Gopal, Y., Panda, K. P., Gupta, P. P., Dhaked, D. K., & Arya, Y. (2025). Development and performance assessment of switched-capacitor multilevel inverters for solar PV applications. Sustainable Energy Technologies and Assessments, 79, 104360. https://doi.org/10.1016/j.seta.2024.104360

  2. Dhaked, D. K., Sharma, O., Gopal, Y., & Gopal, R. (2025). Prediction of dengue patients using deep learning methods amid complex weather conditions in Jaipur, India. Discover Public Health, 22(1), 58. https://doi.org/10.1007/s44197-024-00058-3

  3. Narayanan, V. L., Gupta, A., Dhaked, D. K., Tewary, M., Mondal, S. K., & Gopal, R. (2025). A systematic review on recent trends in path planning techniques for autonomous underwater vehicles. International Journal of Intelligent Robotics and Applications, 1–41. https://doi.org/10.1007/s41315-025-00231-5

  4. Narayanan, V. L., Narayan, J., Dhaked, D. K., & Telmoudi, A. J. (2025). Elman Neural Network with Customized Particle Swarm Optimization for Hydraulic Pitch Control Strategy of Offshore Wind Turbine. Processes, 13(3), 808. https://doi.org/10.3390/pr13030808

  5. Dhaked, D. K., & Narayanan, V. L. (2024). Recent trends in medical cyber-physical systems—A brief survey. In Intelligent Cyber-Physical Systems for Healthcare Solutions: From Theory to Practice (pp. 39–60). Springer. https://doi.org/10.1007/978-981-97-8983-2_3

Ravi Prakash, Chemistry, Best Innovator Award

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Dr. Ravi Prakash: Postdoctoral Researcher at Indian Institute of Technology (BHU) Varanasi, India

Ravi Prakash is a dedicated postdoctoral researcher at the Indian Institute of Technology (BHU), Varanasi, with specialized expertise in polymer nanocomposites, graphene oxide functionalization, and quantum dot-based solar energy devices. His work aims to develop advanced hybrid nanostructures for flexible, printable, and high-efficiency energy harvesting systems. Skilled in material synthesis, chemical modifications, and multi-scale characterization techniques, Ravi has a strong record of high-impact publications and collaborative research bridging academia and industry.

Online Profiles

Google Scholar Profile

Citation Metrics

Since 2020, Ravi Prakash has garnered a total of 244 citations, with 242 citations recorded in this period alone. His research impact is reflected in an h-index of 8 and an i10-index of 7, indicating a consistent track record of influential publications that contribute to the fields of polymer nanocomposites and solar energy devices.

Education

He completed his Ph.D. in Materials Science at IIT (BHU), Varanasi, in October 2022, focusing on the development of functionalized polyurethane gel electrolytes for quantum dot-sensitized solar cells. Prior to this, Ravi earned his Master of Science from Mahatma Gandhi Kashi Vidyapith University and Bachelor of Science from Veer Bahadur Singh Purvanchal University, building a solid foundation in chemistry and material sciences.

Research Focus

Ravi’s research focuses on the design, synthesis, and functionalization of polymers, quantum dots, and carbon-based nanomaterials for energy applications. He specializes in fabricating dye-sensitized and quantum dot solar cells, optimizing thin-film device performance, and analyzing electrochemical, thermal, and mechanical properties of novel polymer composites and hybrid materials aimed at sustainable energy solutions.

Experience

He has served as a Postdoctoral Research Associate since late 2022, working on thermoplastic prepreg technologies for aerospace applications under a DRDO-IIT(BHU) joint initiative. His doctoral research involved the development of high-performance gel electrolytes for solar cells, and he has extensive experience in material synthesis, device fabrication, and operating advanced characterization instruments such as rheometers, electrochemical workstations, and spectrometers.

Research Timeline

From 2016 to 2022, Ravi conducted his Ph.D. research at IIT (BHU), culminating in a thesis on polyurethane gel electrolytes for solar cells. Post-Ph.D., he joined as a postdoctoral researcher focusing on processing techniques for PEEK-based thermoplastic composites under defense research projects. Throughout his career, he has progressively expanded his expertise in polymers, nanomaterials, and composite processing technologies.

Awards & Honors

Ravi has achieved notable academic distinctions including securing the 16th rank nationally in the CSIR-UGC NET exam for Chemical Sciences (2015) and qualifying GATE Chemistry (2016). He was awarded Junior and Senior Research Fellowships at IIT (BHU) and won the Best Poster Award at the BioHeal 2023 International Conference. He is also a life member of the Asian Polymer Association and the Materials Research Society of India, reflecting his commitment to the scientific community.

Recent Publication

Among his recent publications is the article “Slurry processed Carbon Fiber/PEEK prepreg Enhanced Mechanical and Viscoelastic properties,” accepted in ChemistrySelect (July 2025). This work highlights his contribution to enhancing the mechanical strength and durability of thermoplastic composites for structural and aerospace applications, demonstrating practical implications of his research in advanced materials engineering.

  • High Strength Glass Fiber / PEEK Prepreg using Slurry Processing for Structural Application
    Ravi Prakash, D.S. Bag, P. Maiti, Journal of Materials Science: Composites (In press), 2025.
    This study presents advanced slurry-processed glass fiber/PEEK composites with improved mechanical and structural properties for industrial applications.

  • Slurry-Processed Carbon Fiber / PEEK Prepregs with Enhanced Mechanical and Viscoelastic Properties
    Ravi Prakash, D.S. Bag, S.K. Mishra, P. Maiti, ChemistrySelect (In press), 2025.
    This work focuses on optimizing carbon fiber reinforced PEEK composites via slurry processing to enhance their mechanical performance.

  • Alterations in the Epidermis and Mucus Viscosity of the Carp, Cirrhinus mrigala, Experimentally Infected with Edwardsiella tarda
    A.K.M. Jyoti Singh, Usha Kumari, Ravi Prakash, Pralay Maiti, Swati Mittal, Microbial Pathogenesis, 207, 107883, 2025.
    A biological study investigating changes in fish epidermal properties due to bacterial infection.

  • Fluid Distribution Equipment, Sanitary, Heating, Ventilation and Air-Conditioning Equipment, Solid Fuel
    N. Kant, S. Singh, A.K. Singh, P. Singh, D. Sharma, Ravi Prakash, et al. GOV.UK Patent (Granted), 6437742, 2025.
    Patent granted on innovative HVAC and fluid distribution technologies.

  • A Method for Preparing a Thermoplastic Polyether Ether Ketone / Carbon Fibre Prepreg
    P.M. Ravi Prakash, Dibyendu Sekhar Bag, Indian Patent Application (Filed), 2024.
    Patent application describing a novel process for fabricating high-performance PEEK/carbon fiber prepregs.

  • Biodegradable Gel Formulation and a Method of Preparation Thereof
    Avishek Mallick Choudhury, Subham Sekhar Mandal, Ravi Prakash, Amita Santra, et al., Indian Patent Application (Filed), 2022.
    Patent application on environmentally friendly biodegradable gel materials for diverse applications.

Strength for the Best Innovator Award:

  1. Pioneering Research in Advanced Materials:
    Developed innovative slurry-processing techniques for high-strength Glass Fiber and Carbon Fiber reinforced PEEK composites, significantly improving mechanical and viscoelastic properties for structural and aerospace applications.

  2. Cutting-Edge Energy Solutions:
    Created functionalized polyurethane gel electrolytes and quantum dot-sensitized solar cells that demonstrate enhanced efficiency, contributing to the advancement of sustainable, flexible, and printable energy devices.

  3. Strong Patent Portfolio:
    Filed multiple patents, including novel methods for preparing thermoplastic PEEK/carbon fiber prepregs and biodegradable gel formulations, showcasing a commitment to translating research into practical, market-ready technologies.

  4. Interdisciplinary Impact:
    Demonstrated versatility by contributing to diverse fields ranging from polymer nanocomposites and solar energy to biomedical hydrogels and microbial pathogenesis, indicating broad innovative potential.

  5. Collaborative and Funded Research Excellence:
    Led DRDO-funded projects and actively participated in drafting competitive research proposals, reflecting not only innovative ideas but also the ability to secure funding and implement impactful research at a national level.

Shyam Prakash, Public Health, Healthcare Innovation Award

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Dr. Shyam Prakash: Prof ( Additional) at All India Institute of Medical Science, Ansari Nagar, New Delhi, India

Dr. Shyam Prakash is a senior biomedical researcher and Additional Professor at the Department of Laboratory Medicine, All India Institute of Medical Sciences (AIIMS), New Delhi. With over 30 years of experience in clinical biochemistry and molecular diagnostics, he has established himself as a leading expert in the field of gastrointestinal, hepatic, and metabolic diseases. His translational research focuses on bridging laboratory science with patient care through the development of innovative diagnostic tools, point-of-care technologies, and molecular markers for early disease detection. Throughout his career, he has contributed significantly to public health research, diagnostics, and academic mentorship, mentoring over 22 MD and PhD students and authoring 75+ research papers.

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Citation Metrics

As of 2025, Dr. Shyam Prakash has received a total of 2,726 citations, with 1,021 citations since 2020. His h-index stands at 26, indicating substantial impact and consistent contributions across multiple publications. Additionally, his i10-index is 67, with 28 publications having received 10 or more citations since 2020. These metrics reflect the relevance and reach of his research in clinical biochemistry, molecular diagnostics, and translational medicine.

Education

Dr. Prakash received his foundational training in biochemistry and laboratory medicine, beginning his research career in 1993 as a Research Officer in Biochemistry at the Homoeopathic Drug Research Institute, Lucknow. He soon transitioned into forensic science and molecular diagnostics, working briefly at the Central Forensic Science Laboratory, Kolkata, before joining AIIMS in 1994. Over the years, he has continuously upgraded his scientific expertise through multidisciplinary collaborations and research leadership, particularly in the fields of molecular biology, clinical chemistry, and immunodiagnostics.

Research Focus

Dr. Prakash’s primary research interests span the molecular basis of liver and metabolic disorders, including non-alcoholic fatty liver disease (NAFLD), metabolic syndrome, and hepatitis B and C. He investigates the expression of tRNA-derived small RNAs, mitochondrial dysfunction, cytokine signaling, and nitric oxide pathways in chronic diseases. His lab has developed and validated micro-PCR technologies for rapid viral quantification (HBV, HCV, HIV), along with novel biosensors for anemia and salivary glucose detection. He is also involved in studying the role of micronutrients, vascular markers, and oxidative stress in gastrointestinal diseases and cancers.

Experience

Over the past three decades, Dr. Prakash has held several key positions. He joined AIIMS in 1994 as a Senior Scientist in the Department of Gastroenterology and Human Nutrition, where he served until 2014. He was then appointed Assistant Professor in the newly established Department of Laboratory Medicine, becoming Associate Professor in 2017 and Additional Professor in 2020. His earlier roles include Junior Scientific Officer at CFSL, Kolkata (1994), and Research Officer in Biochemistry at HDRI, Lucknow (1993–1994). This extensive experience has given him a deep understanding of both basic and applied biomedical science.

Research Timeline

Dr. Prakash’s research journey began in the early 1990s with clinical biochemistry and expanded into forensic and nutritional science. From 1994 to 2014, his work focused on gastrointestinal biology, where he contributed to understanding micronutrient deficiencies and inflammatory pathways in liver diseases. Since 2014, his research has evolved to include molecular diagnostics, small RNA profiling, oxidative stress biology, and biosensor technology. He now leads several national and collaborative projects funded by ICMR, DST, BIRAC, and AIIMS-IIT Delhi, focusing on advanced diagnostics for metabolic diseases and liver cancer.

Awards & Honors

Dr. Prakash is the recipient of numerous professional memberships and scientific honors. He is an Honorary Member of the Federation Internationale Law, Medicine, Ethics & Innovation (2024) and a Regular Member of the American Society for Biochemistry and Molecular Biology. He is also affiliated with the American Society of Cell Biology, Society for Free Radical Research, Indian Association of Biomedical Sciences, and the Society of Biological Chemists. His contributions have earned him positions on review panels for ICMR and DST, and he serves as a reviewer for the Indian Journal of Clinical Biochemistry and as a Board of Studies member at Poorvanchal University.

Top Noted Publication

Among his recent impactful publications is “Role of prokineticins and T-reg cells in obesity-associated metabolic oxidative dysregulation in NAFLD” (Scientific Reports, 2025), which provides insights into immune-metabolic interactions in liver disease. Another notable study, published in the IEEE Sensors Journal, presents a saliva-based non-invasive glucometer for diabetes management. He also co-authored a 2024 Sci Rep paper on HIV viral load quantification using micro-PCR, and contributed to landmark studies on anemia, PCOS, and biomarkers in metabolic and gastrointestinal diseases published in JAMA Netw Open, Lancet Regional Health, and MethodsX.

  1. Prevalence, Phenotypes, and Comorbidities of Polycystic Ovary Syndrome Among Indian Women
    JAMA Network Open, 2024, Vol. 7(10): 1–15
    Citations: 14
    A major population-based study under the PCOS Study Group (PSGS) exploring epidemiological and hormonal patterns among Indian women, with Dr. Prakash as a core contributor.

  2. Forced Convection Heat Transfer in Doubly Connected Ducts
    International Journal of Heat and Fluid Flow, 1987, Vol. 8(2): 107–110
    Citations: 14
    An early interdisciplinary engineering study co-authored by Dr. Prakash, contributing to thermal flow theory and heat transfer modeling.

  3. Prevalence of Sarcopenia and Its Determinants in People with Type 2 Diabetes
    Diabetes & Metabolic Syndrome: Clinical Research & Reviews, 2023, Vol. 17(12): 102902
    Citations: 13
    A collaborative clinical investigation identifying key predictors of muscle wasting in diabetic patients in northern India.

  4. Intravenous Iron Sucrose and Hematological Outcomes in Moderately Anemic Pregnant Women
    Indian Journal of Public Health, 2020, Vol. 64(1): 11–16
    Citations: 13
    This study measured changes in hemoglobin, ferritin, and oxidative stress biomarkers following iron therapy in pregnant women.

  5. Performance and Emission Characteristics of Diesel Engines Using Biodiesel from Safflower and Milk Scum Oil
    International Refereed Journal of Engineering and Science, 2014, Vol. 3(4): 103–112
    Citations: 13
    A cross-disciplinary energy study evaluating biodiesel alternatives for diesel engines, emphasizing Dr. Prakash’s early interest in environmental and engineering research.

  6. Takayasu’s Disease with Chest Pain, Fever, and Pleural Effusion
    Journal of the Association of Physicians of India, 2005, Vol. 53: 722–724
    Citations: 13
    A clinical case report on the diagnostic complexity of a rare vascular disease, illustrating Dr. Prakash’s broad medical expertise.

Dr. Shyam Prakash’s strength for the Healthcare Innovation Award:

1. Development of Affordable Point-of-Care Diagnostics
Dr. Prakash has led the innovation of low-cost, rapid diagnostic tools such as micro-PCR platforms for HBV, HCV, and HIV, and non-invasive biosensors for anemia and salivary glucose, making advanced diagnostics more accessible in resource-limited settings.

2. Translational Research in Liver and Metabolic Diseases
His work bridges lab science and clinical care through the discovery of molecular markers in NAFLD, hepatitis, and metabolic syndrome, including studies on small RNAs, oxidative stress, and cytokine pathways that enable early detection and targeted treatment.

3. Interdisciplinary Innovation and Engineering Collaboration
By integrating biomedical science with engineering, Dr. Prakash has co-developed novel sensor technologies and bio-analytical devices in partnership with institutes like IIT Delhi, demonstrating a strong track record in translational tech innovation.

4. Public Health Impact Through Large-Scale Clinical Research
He has contributed to major national studies on PCOS, sarcopenia, and anemia, translating research into real-world healthcare improvements and shaping public health strategies, particularly in women’s health and chronic disease management.

5. Leadership in Research and Mentorship
With over 30 years at AIIMS, Dr. Prakash has mentored 22+ MD/PhD scholars, led ICMR and DST-funded projects, and served on national review panels, establishing a legacy of academic leadership, innovation, and capacity building in Indian healthcare.

Ramyea R, Engineering, Best Researcher Award

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Asst. Prof Ramyea R: Assistant Professor at Kongu Engineering College, India

Dr. Ramyea R is an accomplished academic and researcher serving as an Assistant Professor in the Department of Electronics and Communication Engineering at Kongu Engineering College, Perundurai, Erode, India. With a strong foundation in communication systems and materials engineering, she has dedicated her career to advancing antenna technologies for next-generation wireless and cognitive radio applications. Her work bridges the gap between material science and RF engineering, focusing on the design, simulation, fabrication, and characterization of flexible and conformal antennas using polymer substrates. She has contributed significantly to the development of high-performance, compact, and multi-functional antennas, with her research outputs appearing in reputed peer-reviewed journals. Through her innovative approaches, Dr. Ramyea has made notable strides in ultrawideband communication, spectrum sensing, and triband systems, providing practical solutions for modern wireless challenges.

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Google Scholar Profile

As of the latest update, the researcher has accumulated a total of 75 citations, all of which were received since 2020, reflecting the growing impact of their recent work. Their h-index stands at 4, indicating that at least four of their publications have each been cited four or more times. Additionally, they hold an i10-index of 1, signifying one publication with at least ten citations.

Education

Dr. Ramyea holds a Master of Engineering in Communication Systems from Kongu Engineering College, Tamil Nadu, India, awarded in May 2016. Her postgraduate studies emphasized the integration of antenna theory, electromagnetic wave propagation, and advanced material applications in RF system design. Her academic journey was marked by a deep interest in polymer-based antenna substrates, leading to innovative concepts in flexible and conformal communication devices. Through coursework, laboratory research, and project-based learning, she acquired strong expertise in simulation tools, high-frequency measurements, and the application of composite materials in antenna engineering, setting the stage for her research-driven academic career.

Research Focus

Her primary research focus lies in the design and optimization of antennas for cognitive radio and emerging wireless communication technologies. She has a particular interest in dual-port, multi-band, and ultrawideband antennas with enhanced spectrum sensing capabilities, aiming to improve adaptability and efficiency in dynamic communication environments. Leveraging polymer substrates such as polyvinyl alcohol, graphite composites, and polyethylene, her work addresses the growing need for lightweight, flexible, and durable antenna systems for wearable and conformal applications. By combining computational simulations with experimental prototyping, Dr. Ramyea seeks to push the boundaries of antenna miniaturization, bandwidth enhancement, and environmental adaptability.

Experience

Dr. Ramyea’s academic career at Kongu Engineering College has been characterized by a blend of teaching excellence, research innovation, and active student mentorship. As an Assistant Professor in the Department of ECE, she has taught core courses in communication engineering and guided numerous undergraduate and postgraduate projects in RF and microwave engineering. Her collaborative spirit has led to interdisciplinary projects that merge electronic design with material science, enabling the exploration of novel antenna geometries and substrate materials. She is actively involved in writing research proposals, publishing scholarly articles, and participating in conferences that bring together global experts in antenna and wireless technologies.

Research Timeline

Her research journey began with her master’s studies in 2014–2016, where she explored polymer material applications in RF devices. From 2017 to 2022, she focused on building expertise in computational antenna design, gradually transitioning toward experimental validation and fabrication of flexible systems. The period from 2023 to 2025 marks a prolific phase in her career, with multiple publications in high-impact journals such as Wireless Networks, International Journal of Communication Systems, and Journal of Computational Electronics. These works reflect a consistent trajectory toward practical, application-ready antenna designs for cognitive radio and advanced wireless systems, underpinned by the use of sustainable and flexible materials.

Awards & Honors

While specific award details are to be documented, Dr. Ramyea’s research outputs and publication record demonstrate her recognition as an emerging voice in the antenna design and wireless communication research community. Her contributions to integrating novel materials into antenna systems have been highlighted in academic conferences and acknowledged by peer reviewers for their originality and practical significance. She has also played an instrumental role in student-led research projects that have received accolades at institutional and regional levels, showcasing her ability to inspire and mentor the next generation of engineers.

Recent Publications

Her recent publications include:

  • Computer simulations of a four-element array antenna using polyethylene (PE) substrate and parameter analysis for compact, flexible wireless applications
    R Ramyea, SK Kandasamy, N Kasthuri
    Journal of Computational Electronics, 24(2), 40, 2025.

  • Dual‐Port Interweave Antenna Design With Wideband Spectrum Sensing and Triband Communication Capabilities for Cognitive Radio Applications
    R Ramyea, N Kasthuri, SK Kandasamy
    International Journal of Communication Systems, 38(10), e70142, 2025.

  • Exploring Polymer Substrate-based Frequency Reconfigurable Antenna for Cognitive Radio Applications: Design and Analysis
    R Ramyea, N Kasthuri, E Mugeshkumar, SS Namitha, R Sakthimurugan
    2025 3rd International Conference on Intelligent Data Communication …, 2025.

  • Crack Detection and Output Power Analysis in Solar Panels Using DANet Algorithm
    N Kasthuri, M Jothish, R Ramyea, S Kirithick, NT Josika
    2024 15th International Conference on Computing Communication and Networking …, 2024.

  • Analysing Switching States on the Ground Plane of a Frequency Reconfigurable Cognitive Radio Antenna
    R Ramyea, N Kasthuri, SK Kandasamy, A Kaviya, T Jeevitha
    2024 15th International Conference on Computing Communication and Networking …, 2024.

 

Shanti Swarup, Medicine, Best Innovator Award

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Dr. Shanti Swarup: Senior Assistant Professor at Tamil Nadu Government Dental College, India

Dr. J. Shanti Swarup is a leading academician and researcher in the field of Pediatric and Preventive Dentistry, currently serving as Senior Assistant Professor at Tamil Nadu Government Dental College and Hospital, Chennai. Her professional journey is marked by excellence in clinical practice, student mentorship, and pathbreaking research in regenerative endodontics and dental biomaterials. Known for her innovative use of nanotechnology and bioengineering in pediatric dental care, she has become a prominent voice in national and international conferences. A first-rank M.D.S. graduate from Manipal University, Dr. Swarup is highly respected for combining research rigor with a compassionate approach to child-centered dentistry.

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ORCID Profile

Education

Dr. Shanti Swarup earned her M.D.S. in Pediatric and Preventive Dentistry from Manipal College of Dental Sciences, Mangalore, graduating in 2012 as the top university rank-holder. Prior to that, she completed her B.D.S. from Saveetha Dental College and Hospital, affiliated with Tamil Nadu Dr. M.G.R. Medical University, in 2008. Her academic training was distinguished by active research participation, early exposure to pediatric dental trauma care, and an emerging interest in biocompatible materials—an interest she later developed into a central theme of her research career.

Research Focus

Her primary research interests lie at the intersection of pediatric endodontics, biomaterials, and tissue regeneration. Dr. Swarup has extensively explored the clinical application of nano-hydroxyapatite, bioactive cements like MTA and Biodentine, and scaffold-based pulp regeneration strategies using platelet-rich fibrin. Her research bridges both laboratory and clinical domains, with a focus on developing minimally invasive, biologically sound treatment approaches for children. She also investigates pain management in pulpectomies, dental trauma protocols, and the long-term bioactivity of dental implants and obturation materials in pediatric patients.

Experience

With over 13 years of academic and clinical experience, Dr. Swarup has served in leading roles across multiple government and private dental institutions. From 2012 to 2014, she worked at Sri Sankara Dental College, Kerala, followed by her tenure at Kanyakumari Government Dental College until 2017. Currently, at Tamil Nadu Government Dental College, she oversees postgraduate training, coordinates funded research projects, and leads clinical services in pediatric endodontics. Her expertise spans curriculum development, research mentorship, grant writing, and organizing hands-on training workshops in dental trauma and regenerative therapy.

Research Timeline

Her research career has been marked by significant milestones and steady academic output. In 2019, she secured ISPPD funding for studies on apexification using eggshell-derived nanohydroxyapatite. The year 2022 saw another ISPPD-supported randomized trial evaluating postoperative outcomes in pulpectomy using bioceramic-based materials. In 2023, Dr. Swarup was awarded a prestigious ₹1.5 crore ICMR-Adhoc Extramural Grant for developing an injectable PRF-based scaffold with stem cells from SHED for pulp-dentin engineering. By 2024, she expanded her regenerative work into silk fibroin nanoscaffolds, demonstrating a progressive evolution from bench to chairside translational research.

Awards & Honors

Dr. Swarup has received multiple awards recognizing both academic merit and research excellence. Most notably, she received the Young Scientist Award from the Society of Biomaterials and Tissue Engineering in 2024 and the Vidyatandon Gold Medal for best outgoing postgraduate student from Manipal University in 2012. She has consistently won gold and silver medals for research papers presented at national conferences of ISPPD and ISDT, including those focusing on pulp regeneration and biomimetic materials. She was also honored with the Best Teacher Award by the Government Dental College and the Best Research Award from Manipal University. Her early recognition began with the National Young Scientist Award in 1998 at a science seminar, foreshadowing her lifelong commitment to scientific advancement.

Recent Publication

Citation:
Swarup, J. S., Thomas, R., Rucharitha, J., Arunkumar, V. R., & Vasanthi, V. (2025). Eggshell-derived hydroxyapatite as a biomaterial in dentistry: A scoping review of synthesis, properties and applications. Evidence-Based Dentistry, Published May 12, 2025. https://doi.org/10.1038/s41432-025-01146-3

Summary:
This scoping review, authored by Dr. J. Shanti Swarup and colleagues, comprehensively explores the synthesis techniques, physicochemical properties, and emerging dental applications of eggshell-derived hydroxyapatite (eHA). The study consolidates current literature on converting biowaste—specifically eggshells—into a biocompatible, sustainable, and cost-effective material suitable for endodontic, prosthodontic, and regenerative treatments. Highlighting both in vitro and in vivo studies, the review identifies critical knowledge gaps and proposes directions for clinical translation. The paper underlines Dr. Swarup’s contribution to eco-conscious innovation in dental biomaterials.

Priyanka arya, Agriculture, Best Researcher Award

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Dr. Priyanka arya: Teaching Faculty at GBPUA&T, Pantnagar University, India

Dr. Priyanka Arya is a highly motivated food technologist with a Ph.D. in Food Technology, bringing over seven years of experience in research, teaching, and industry collaboration. Her expertise lies in microbial fermentation, probiotic strain development, and functional food innovation. She has actively contributed to scientific research through high-impact publications, book chapters, patents, and culture depositions in national and international repositories. Passionate about bridging traditional food practices with modern biotechnology, she emphasizes sustainable and health-oriented food solutions. Dr. Arya also plays an active role in mentoring, capacity-building, and food entrepreneurship training at grassroots levels.

Online Profiles

As of August 2025, Dr. Priyanka Arya has received 46 citations, with an h-index of 4 and an i10-index of 1, reflecting the impact and relevance of her research in food science and microbial biotechnology. These metrics are consistent both overall and since 2020, indicating a steady and focused contribution to the academic community through high-quality, peer-reviewed publications.

Education

Dr. Arya completed her Ph.D. in Food Technology from Dr. YSP University of Horticulture and Forestry, Nauni, in 2024. Her doctoral research centered on isolating, characterizing, and identifying microbial strains from naturally fermented milk, with an emphasis on probiotic efficacy and bioactive compound profiling. She earned her M.Sc. in Food Science and Technology from Banaras Hindu University (2017), where she developed functional bread using banana flour and whey under Modified Atmosphere Packaging. She holds a B.Sc. in Food Technology from GBPUA&T, Pantnagar (2015), where she developed foundational expertise in food processing, safety, and nutrition.

Research Focus

Her research primarily revolves around food microbiology, fermentation biotechnology, and the valorization of underutilized natural resources for health-promoting food products. She has successfully isolated and deposited several novel bacterial and yeast strains with antimicrobial and antioxidant potential. Her work integrates molecular techniques like 16S rRNA sequencing, GC-MS for volatile compound analysis, and in vitro antimicrobial assays to evaluate strain efficacy. She is particularly interested in the functional enhancement of traditional foods through fermentation and bioactive enrichment, aiming to improve shelf-life, safety, and nutritional profiles.

Experience

Dr. Arya has served in multiple academic roles including Teaching Assistant and Guest Lecturer at reputed institutions such as GBPUA&T, Kumaun University, and Surajmal Agarwal Private Kanya Mahavidyalaya. She taught undergraduate and vocational students and delivered lectures on entrepreneurship, food processing, and innovation in the agri-food sector. She also contributed as a consultant in an industry-led food processing unit under the GRACE project in Himachal Pradesh. Her training stints at Britannia Industries, Anchal Dairy, and Mr. Pepper bakery expanded her practical knowledge in industrial production, quality control, and product standardization.

Research Timeline

Her research journey began in 2015 with her postgraduate work on functional bread, leading to her first peer-reviewed publication. Between 2020–2024, she conducted her Ph.D. research on probiotic-rich fermented milk, characterizing five novel microbial strains and contributing significantly to GenBank and MTCC repositories. Her interdisciplinary approach combined microbial identification, bioactive compound analysis, and product development. In parallel, she co-authored several book chapters and articles, received grants, and contributed to patent development. Her consistent involvement in lab management, mentoring, and scientific writing reflects a well-rounded and dynamic research career.

Awards & Honors

Dr. Arya has been recognized with the Young Research Fellow Award (2023) and the Best Oral Presentation Award (2024) at international conferences in food and agricultural sciences. She received the ICAR-Senior Research Fellowship (2020–2023) for her doctoral work and has been acknowledged for her leadership in academic mentoring. Outside of academia, she also holds a state-level silver medal in Karate, demonstrating her well-rounded profile and commitment to discipline and resilience. Her recognitions highlight her contributions to applied research and academic excellence in food technology.

Recent & Notable Publications

In her most recent publication titled “Effects of different solvents on phytochemical constituents, in vitro antimicrobial activity and volatile components of Boehmeria rugulosa wood extract” (Scientific Reports, 2025), Dr. Arya investigated the bioactive profile of a traditional Himalayan plant. Using GC-MS and microbial assays, the study provided insight into the compound’s antimicrobial spectrum, supporting its use in natural food preservation. The article, published in a high-impact journal (IF 9.80), exemplifies her commitment to integrating indigenous knowledge with cutting-edge analytical techniques for functional food innovation.

  1. Bhatt, K., Vaidya, D., Kaushal, M., Gupta, A., Soni, P., Arya, P., & Gautam, A. (2020). Microwaves and radiowaves: In food processing and preservation. International Journal of Current Microbiology and Applied Sciences, 9(9). Cited by: 26

  2. Chand, S., Devi, S., Devi, D., Arya, P., Manorma, K., Kesta, K., & Sharma, M. (2023). Microbial and physico-chemical dynamics associated with chicken feather compost preparation vis-à-vis its impact on the growth performance of tomato crop. Biocatalysis and Agricultural Biotechnology, 54, 102885. https://doi.org/10.1016/j.bcab.2023.102885 Cited by: 8

  3. Arya, P., & Poonia, A. (2019). Effect of banana flour on composition and shelf life of concentrated whey incorporated bread. The Pharma Innovation Journal, 8(1), 616–621. Cited by: 6

  4. Devi, B., Devi, S., Sood, D., & Arya, P. (2023). Microbial stabilizers in food processing. In Microbes for Natural Food Additives (pp. 113–145). Springer Nature Singapore. Cited by: 5

  5. Arya, P., Vaidya, D., Kaushal, M., Devi, S., Gupta, A., & Chand, S. (2025). Effects of different solvents on phytochemical constituents, in-vitro antimicrobial activity, and volatile components of Boehmeria rugulosa Wedd. wood extract. Scientific Reports, 15(1), 29135. https://doi.org/10.1038/s41598-025-14506-x (Newly Published)

  6. Sood, D., Devi, S., Devi, B., & Arya, P. (2023). Microbial antioxidants in food products. In Microbes for Natural Food Additives (pp. 27–51). Springer Nature Singapore.

  7. Arya, P. (2020). Newer techniques in food processing: High intensity light, pulse electric field and infrared. International Journal of Scientific Research & Engineering Trends, 6(3), 1824–1826.

  8. Patidar, S., Vaidya, D., Kaushal, M., Gupta, A., Ansari, F., Arya, P., & Chauhan, P. (2022). A comparative study on nutritional and functional composition of fresh apple pomace and dried apple pomace powder. AMA, Agricultural Mechanization in Asia, Africa and Latin America, 53(7), 9025–9036.

Nemappa G Hanamaratti, Agriculture, Best Researcher Award

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Dr. Nemappa G Hanamaratti: Principal Scientist at University of Agricultural Sciences, Dharwad, India

Dr. Nemappa G. Hanamaratti is a Principal Scientist specializing in Plant Breeding at the All India Coordinated Research Project (AICRP) on Sorghum, University of Agricultural Sciences (UAS), Dharwad, India. With over three decades of experience in crop genetics, plant breeding, and agricultural research, Dr. Hanamaratti has contributed extensively to the development of drought-resistant, high-yielding varieties of sorghum, rice, and other staple crops. His expertise lies in enhancing crop resilience to abiotic stresses, especially drought, through genetic improvement and advanced breeding methodologies. Throughout his career, he has been a driving force behind several national projects, and his work has had a direct impact on food security in water-scarce regions. Dr. Hanamaratti’s leadership in both research and outreach programs has earned him recognition in the agricultural community, and he remains committed to advancing sustainable farming practices through crop improvement.

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Google Scholar Profile

  • Citations: Total number of times your work has been cited.

    • 700 total is quite solid, and 276 since 2020 shows recent relevance.

  • h-index: You have 14 papers that have at least 14 citations (and 10 papers with at least 10 citations since 2020).

    • Indicates consistent impact across multiple publications.

  • i10-index: You have 18 papers with at least 10 citations (10 of those published or cited since 2020).

    • Shows a good number of papers are gaining traction.

Education

Dr. Hanamaratti’s educational journey began with a Bachelor’s degree in Agriculture (B.Sc.) from the University of Agricultural Sciences, Dharwad, in 1989. He went on to pursue a Master’s degree (M.Sc.) in Genetics and Plant Breeding at the same institution, where he honed his skills in crop breeding and genetic analysis. After completing his M.Sc., he advanced his research expertise through a Ph.D. in the same field, awarded in 2007. His doctoral work focused on understanding and improving drought resistance in upland rice, an area critical for ensuring food security in drought-prone regions of India. His academic training laid the foundation for his career as a leading scientist in the field of plant breeding, enabling him to combine traditional breeding methods with modern genetic techniques for crop improvement.

Research Focus

Dr. Hanamaratti’s research primarily revolves around the genetic improvement of crops, particularly sorghum and rice, to enhance their resilience to environmental stressors such as drought, salinity, and heat. His work incorporates advanced breeding techniques, molecular markers, and genomic tools to identify traits that contribute to stress tolerance. In particular, Dr. Hanamaratti’s research on drought tolerance in sorghum and rice has led to the identification of specific QTLs (Quantitative Trait Loci) responsible for improved water-use efficiency and stress resistance. His projects also explore hybrid breeding, the development of biofortified crops, and strategies for improving the nutritional content of staple crops. Through his work, he aims to develop varieties that not only yield higher under adverse conditions but also contribute to the overall health and nutrition of populations in developing countries.

Experience

Dr. Hanamaratti’s professional experience spans over 30 years, during which he has held several key roles within India’s agricultural research system. He began his career as a Research Assistant and later as a Junior Rice Breeder, where he contributed to early-stage breeding programs for rice varieties adapted to water-limited environments. Over time, Dr. Hanamaratti advanced to Senior Scientist positions, taking on greater leadership responsibilities and overseeing multi-institutional projects aimed at developing drought-resistant rice and sorghum varieties. As Principal Scientist, he currently heads the AICRP Sorghum program at UAS Dharwad, where he has led numerous successful breeding initiatives. These efforts have resulted in the release of several new sorghum and rice varieties, such as CSV-42 and CSH-42, which are now widely cultivated across India. His work on hybrid varieties has significantly contributed to the sustainability of rain-fed agriculture in India.

Research Timeline

  • 1993-2007: Early career focused on genetic analysis and drought resistance in rice, culminating in his Ph.D. research on upland rice. He developed key breeding lines and identified morphological traits linked to drought resistance.

  • 2007-2014: As Senior Scientist, he focused on enhancing stress tolerance in sorghum, particularly in terms of heat and water-use efficiency. His research led to the development of drought-tolerant hybrids and new lines suitable for rain-fed environments.

  • 2014-Present: Serving as Principal Scientist, Dr. Hanamaratti has expanded his work to include biofortification of sorghum and the development of hybrid varieties that offer both drought resilience and enhanced nutritional profiles. His current research includes the integration of molecular breeding techniques to accelerate the development of climate-resilient crops.

Awards & Honors

Dr. Hanamaratti has received numerous accolades for his contributions to agricultural research and breeding. Among his most notable honors is the Jawaharlal Nehru ICAR Award (2009), which recognized his outstanding Ph.D. research on rice breeding. In 2023, he was awarded the Best Research Scientist award by the University of Agricultural Sciences, Dharwad, for his leadership and research excellence. Additionally, he has been the recipient of several team awards for his contributions to the AICRP Sorghum, including recognition for his role in developing high-yielding and disease-resistant varieties. Dr. Hanamaratti is also a fellow of several national societies, including the Indian Society of Genetics and Plant Breeding (ISGPB), and continues to be a sought-after speaker at international agricultural conferences.

Recent Top Noted Publications – 2025

  • Rajashekhara, K., Hanamaratti, N.G., Madhusudhana, R., et al. (2025). Deciphering morpho-physiological traits for identifying drought resilient varieties of post-rainy sorghum (Sorghum bicolor L. Moench). Plant Physiology Reports, pp. 1–16.

  • Gopalgowda, H.J., Ashoka, P., Yenagi, B.S., Rajakumar, G.R., et al. (2025). Optimizing sowing windows and nutrient levels for higher productivity of browntop millet (Brachiaria ramosa L.). Journal of Farm Sciences, 38(01), pp. 33–36.

  • Chavadappanavar, P.R., Shaila, H.M., Mallapur, C.P., et al. (2025). Influence of intercrops and border crops on the incidence of fall armyworm (Spodoptera frugiperda) on rabi sorghum. Journal of Farm Sciences, 38(01), pp. 56–60.

  • Pattanashetti, B.M., Sajjanar, G.M., Madhusudana, R., Hanamaratti, N.G. (2025). Novel restorers identified for maldandi cytoplasm for enhancing the hybrid breeding in rabi sorghum. Genetic Resources and Crop Evolution, pp. 1–8.

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