Category: Biography

Urvashi Mall, Agriculture, Waste Reduction Award

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Dr. Urvashi Mall: Assistant professor at sardar Patel University, India

Dr. Urvashi P. Mall is a highly dedicated researcher and educator in the field of Foods and Nutrition, with a particular emphasis on food bioactives, polyphenol bioaccessibility, and the role of prebiotics in gut health. With a Ph.D. from Sardar Patel University, her work integrates in vitro digestion models to understand how food bioactives, particularly polyphenols, interact with the gut microbiota, promoting human health. Her research aims to leverage agro-waste as a sustainable resource for functional food design, exploring the nutritional and health benefits of using by-products like fruit peels and vegetable pomace. Dr. Mall is actively pursuing postdoctoral opportunities to further explore the intersections of gut microbiota, nutraceuticals, and bioactive compound research.

Online Profiles

Google Scholar Profile

  • Citations: 27

  • h-index: 2

  • i10-index: 2
    These metrics highlight the growing influence of Dr. Mall’s research, with 27 citations and an h-index of 2, indicating the impact and reach of her scholarly work in the fields of Foods and Nutrition and functional food development.

Education

  • Ph.D. in Foods and Nutrition, Sardar Patel University, 2024 (Awarded)
    Dr. Mall’s doctoral research centered on prebiotic properties of agro-based raw materials, particularly focusing on bioactive-rich food byproducts like fruit peels and vegetable pomace. She used in vitro digestion models to study how these materials affect gut health and nutrient bioavailability.

  • M.Sc. in Foods and Nutrition, Sardar Patel University, 2017, 70.30%
    Her Master’s thesis focused on the analysis of functional properties of foods and the development of nutraceutical products to enhance human health.

  • B.Sc. in Foods and Nutrition, Sardar Patel University, 2015, 81.30%
    Dr. Mall’s undergraduate studies provided her with a solid foundation in food science, nutrition, and food chemistry, which laid the groundwork for her advanced research.

Research Focus

Dr. Mall’s primary research interest lies in understanding the bioaccessibility of polyphenols and their potential to enhance gut health, using advanced in vitro digestion models. She investigates how plant-based bioactive compounds, particularly from agro-waste, influence human health by modulating the gut microbiota. A significant portion of her research focuses on the prebiotic properties of food byproducts such as pomegranate peel, carrot pomace, tomato pomace, and potato peel. Her long-term research goal is to design functional foods that integrate these bioactive-rich byproducts, thereby promoting sustainability and improving public health.

Experience

Dr. Mall currently holds the position of Assistant Professor in the Postgraduate Department of Home Science at Sardar Patel University. In this role, she teaches courses on Food Biochemistry, Food Processing Technology, and Food Product Development. She actively mentors postgraduate students, guiding their dissertation research, particularly focusing on the bioaccessibility of nutrients and the formulation of functional foods such as bioactive-rich chutney mixes and plant-based ice cream alternatives.
Previously, as a Teaching Assistant, Dr. Mall supported over 70 postgraduate students in laboratory courses including Food Microbiology, Nutraceutical Chemistry, and Molecular Nutrition. Her extensive experience in teaching and research guidance further emphasizes her strong commitment to academic development.

Research Timeline

  • 2018–2024 (Ph.D. Research): Focused on the bioaccessibility and prebiotic properties of various agro-based raw materials. Her work involved simulating gastrointestinal digestion models to explore the release of polyphenols and their potential to improve gut health.

  • 2024–Present (Postdoctoral Aspirations): Dr. Mall aims to deepen her research into the bioactive properties of plant-based compounds, exploring their synergistic effects on gut microbiota and their incorporation into functional foods. Her future research will continue to integrate sustainable approaches, especially through agro-waste valorization, contributing to both food security and environmental sustainability.

Awards & Honors

  • SHODH Fellowship (2020–2022): A prestigious fellowship awarded to support high-quality research in the field of Foods and Nutrition.

  • Sardar Patel Research Award (2019–2020): Recognized for excellence in research and contribution to food science and nutritional biochemistry. These awards reflect Dr. Mall’s dedication to advancing her field through innovative research and academic leadership.

Recent Publications

  • Evaluation of pomegranate (Punica granatum) peel for bioaccessibility of polyphenols and prebiotic potential using in vitro model

    • Authors: UP Mall, VH Patel

    • Journal: Food Chemistry Advances, 2, 100320

    • Cited by: 16

    • Year: 2023

  • Carrot pomace powder: a promising source of polyphenols and prebiotics for improving gut health

    • Authors: UP Mall, VH Patel

    • Journal: Nutrire, 49(1), 9

    • Cited by: 10

    • Year: 2024

  • Effect of in vitro digestion on the bioaccessibility of polyphenols and potential prebiotic properties of potato peel

    • Authors: UP Mall, VH Patel

    • Journal: Recent Advances in Food, Nutrition & Agriculture, 15(3), 228-240

    • Cited by: 1

    • Year: 2024

  • Effect of Chlorogenic Acid and Rutin on Structural and Functional Properties of Potato Starch

    • Authors: A Pal, UP Mall, VH Patel

    • Journal: Potato Research, 1-17

    • Year: 2025

  • Evaluation of amla and tomato pomace for polyphenol bioaccessibility and prebiotic effects by in vitro digestion and fermentation

    • Authors: UP Mall, VH Patel

    • Journal: Nutrition & Food Science, 55(3), 584-604

    • Year: 2025

  • Techniques to Evaluate Prebiotic Properties

    • Authors: VH Patel, U Mall

    • Book: Prebiotic Foods for a Healthy Gut (Chapter 14)

    • Year: 2025

Strength for the Waste Reduction Award (related to agro-waste and functional food research)

1. Sustainable Valorization of Agro-Waste

Dr. Urvashi Mall’s research focuses on the sustainable use of agro-waste by exploring its potential to create functional food ingredients. She investigates food byproducts, such as fruit peels (e.g., pomegranate peel, tomato pomace, and carrot pomace) and vegetable waste (e.g., potato peel), which are rich in bioactive compounds like polyphenols, fiber, and antioxidants. This work directly contributes to reducing food waste and offers innovative pathways for using these materials in developing nutraceutical products and prebiotics that improve human health.

2. Polyphenol Bioaccessibility and Prebiotic Potential

A central theme in Dr. Mall’s research is the bioaccessibility of polyphenols from agro-waste and their prebiotic effects. Through advanced in vitro digestion models, she studies how bioactive compounds from food byproducts become bioavailable and exert their beneficial effects on gut health. Her findings are crucial in promoting the sustainable use of underutilized agricultural waste as sources of bioactive-rich ingredients, which can support gut microbiota and overall health.

3. Development of Functional Foods

Dr. Mall’s research aligns with the goal of creating functional foods that provide health benefits beyond basic nutrition. By incorporating bioactive-rich agro-waste into food formulations, such as bioactive-rich chutney mixes and plant-based ice cream alternatives, Dr. Mall aims to create products that not only reduce food waste but also enhance human health. This work highlights the intersection of food innovation and sustainability, offering a practical solution to agro-waste utilization.

4. Environmental Impact and Sustainability

Dr. Mall’s research contributes significantly to environmental sustainability by focusing on the valorization of agro-waste—a pressing global issue. By identifying valuable components of food byproducts and converting them into functional ingredients, she provides solutions to reduce food waste, carbon footprints, and the environmental burden of agro-industrial byproducts. This aligns with global goals of minimizing waste, lowering resource consumption, and promoting sustainable food systems.

5. Innovation in Waste Reduction for Healthier Food Systems

Dr. Mall’s approach to waste reduction through agro-waste valorization is not only an environmental solution but also a way to address public health challenges. By focusing on prebiotic properties and polyphenol bioaccessibility, her research contributes to the development of nutraceuticals and functional foods that help manage lifestyle-related diseases, improve gut health, and contribute to healthier diets. This holistic approach to waste reduction combines sustainability with the pursuit of healthier, more accessible food systems.

Dr. Urvashi P. Mall is highly eligible for the Strength for the Waste Reduction Award, given her impressive academic qualifications and significant contributions to the field of food science and sustainability. Holding a Ph.D. in Foods and Nutrition from Sardar Patel University, her research focuses on the sustainable utilization of agro-waste by transforming food byproducts such as fruit peels and vegetable pomace into valuable functional ingredients. Through her in vitro digestion models, Dr. Mall has explored the bioaccessibility of polyphenols and the prebiotic properties of agro-waste, aiming to improve gut health and promote sustainable food systems. Her work actively contributes to waste reduction, environmental sustainability, and nutritional enhancement, aligning perfectly with the objectives of this award. Additionally, her publications in high-impact journals and her role as an Assistant Professor, guiding students in innovative research projects, further solidify her eligibility for this prestigious recognition.

Liwei Shi, Engineering, Best Innovator Award

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Prof. Liwei Shi: Reasearcher at Shandong University of Technology, China

Prof. Shi Liwei (June 1980) is a distinguished scholar in vehicle engineering, specializing in automotive electronics, electric vehicle technology, and drive motor systems. He is a Ph.D., Professor, and Doctoral Supervisor at Shandong University of Technology (SDUT), currently serving as Deputy Dean of the School of Transportation and Vehicle Engineering. Recognized as a Zibo Panyang Talent, Outstanding Postgraduate Supervisor of Shandong Province, and a Young/Middle-aged Expert with Outstanding Contributions in Zibo, he leads the national first-class major in vehicle engineering and oversees engineering education certification at SDUT. Over the course of his career, he has authored 38 SCI/EI-indexed papers as the first author, compiled three influential textbooks, and secured 118 authorized invention patents—the highest in the domestic automotive motor industry—many of which have been successfully implemented in collaboration with leading automotive enterprises.

Online Profiles

Education

Prof. Shi earned his Ph.D. in Vehicle Engineering from Shandong University of Technology, where he laid the foundation for his pioneering work in electric vehicle technology. His doctoral research focused on electric machine design, control strategies, and the integration of high-efficiency drive systems into automotive platforms. Over the years, his academic training has been complemented by extensive engagement with industrial R&D, enabling him to develop practical solutions to complex engineering challenges. This combination of deep theoretical knowledge and real-world application has shaped his leadership in the field of sustainable automotive power systems.

Research Focus

Prof. Shi’s research revolves around electric vehicle machine and control technology, with particular emphasis on dual-mode reluctance motors, permanent magnet motors, fault-tolerant starter–generator systems, regenerative braking mechanisms, and high-efficiency powertrain design. He integrates multi-physical field coupling optimization, electromagnetic performance enhancement, and advanced control algorithms to achieve improved efficiency, reliability, and cost-effectiveness in electric vehicle applications. His work bridges the gap between theoretical modeling, prototype development, and large-scale industrial deployment, contributing significantly to the advancement of China’s electric vehicle industry.

Experience

With over two decades of academic and industrial experience, Prof. Shi has advanced from early-stage researcher to full professor and administrative leader. As Deputy Dean at SDUT, he not only directs academic programs but also spearheads national and provincial research initiatives. His expertise has been recognized by invitations to join multiple national and professional committees, such as the Teaching Steering Committee of Vehicle Engineering under the China Machinery Industry Education Association and the Youth Expert Group of the China Society of Electrical Engineering. He also serves as a reviewer for the National Natural Science Foundation of China and participates in national postgraduate education evaluation and monitoring. His strong industry ties have led to successful collaborations with companies like Shandong Tangjun Ouling Automobile Manufacturing Co., Ltd. and Weifang Wanlong Electric Co., Ltd., ensuring that his innovations are not just academic achievements but also tangible technological advancements.

Research Timeline

From 2010 onward, Prof. Shi has led and contributed to a steady stream of high-impact research projects. His National Natural Science Foundation of China grants include groundbreaking studies on modular strong-isolation reluctance motors with regenerative braking (2019–present) and variable winding electric excitation dual-mode starter generators (2015–2019). Provincially, he has directed projects under the Shandong Key Research and Development Program and the Shandong Natural Science Foundation, addressing topics such as multi-phase fractional slot winding generators, rare earth permanent magnet motors, and braking energy recovery systems. His projects consistently progress from fundamental electromagnetic theory to innovative prototypes, culminating in successful industrial adoption.

Awards & Honors

Prof. Shi’s work has been honored with some of China’s most prestigious scientific and technological awards. These include the Second Prize of the National Technical Invention Award (2007), the First Prize of the China Commercial Federation Science & Technology Progress Award (2018), the First Prize of the Shandong Provincial Technical Invention Award (2018), and the Second Prize of the Shandong Provincial Technical Invention Award (2021). He has also won the Second Prize for Technical Invention from the Ministry of Education (2014) and the Most Beautiful Teacher and Excellent Teacher awards from SDUT. These accolades reflect both his innovative technical contributions and his dedication to excellence in teaching and mentorship.

Recent Publication

Xiao D, Shi L*, Li F, et al. “Electromagnetic Characteristics Study of Segmental Rotor Dual Mode Reluctance Starter Generator,” IEEE Transactions on Transportation Electrification, 2025, 11(1): 204–214. This SCI Q1 TOP paper presents a comprehensive analysis of the electromagnetic performance of a segmental rotor dual-mode reluctance starter–generator for electric vehicles, offering novel insights into winding configuration, torque production, and fault-tolerant design for high-reliability EV applications.

  • Yingjie Zhu, Liwei Shi, Dong Xiao, Haoyang Xu, Weilong Wang, Tianyu Zhou, Qinchao Sun. Characteristics and Optimization of Unequal Thickness Segmented Magnetic Pole Axial Flux Permanent Magnet Hub Motor. Journal of Electrical Engineering & Technology, 2025-07. DOI: 10.1007/s42835-025-02228-z

  • Zhiwei Qiao, Liwei Shi, Facheng Li, Haoyang Xu, Tianyu Zhou, Weilong Wang. Characteristics Analysis of Magnetic-Pole-Shift in an Asymmetric Hybrid Pole-Permanent Magnet-Assisted Synchronous Reluctance Motor. IEEE Journal of Emerging and Selected Topics in Power Electronics, 2025-04. DOI: 10.1109/JESTPE.2024.3466168

  • Dong Xiao, Liwei Shi, Facheng Li, Shoulin Gao, Xueheng Tao. Electromagnetic Characteristics Study of Segmental Rotor Dual Mode Reluctance Starter Generator. IEEE Transactions on Transportation Electrification, 2025-02. DOI: 10.1109/TTE.2024.3389092

  • Liwei Shi, Jianning Jing, Wenqiang Wang, Zhengwei Liu, Facheng Li. Electromagnetic Characteristic Analysis of a Negative-Salient Hybrid Permanent Magnet Motor for Electric Vehicles. IEEE Journal of Emerging and Selected Topics in Industrial Electronics, 2024. DOI: 10.1109/JESTIE.2023.3276348

  • Wenqiang Wang, Liwei Shi, Zhiwei Qiao, Yingjie Zhu, Hongshan Ding. Characteristics and Optimization of New Combined Magnetic Pole Negative-Salient Permanent Magnet Motor. Journal of Electrical Engineering & Technology, 2024-03. DOI: 10.1007/s42835-023-01644-3

  • Liwei Shi, Bingchang Lv, Lintao Li. Multi‐Objective Optimization and Analysis of Asymmetric Hybrid‐Magnet Offset Motor for Electric Vehicles. IEEJ Transactions on Electrical and Electronic Engineering, 2024-01. DOI: 10.1002/tee.23931

  • Lintao Li, Liwei Shi, Zhengwei Liu, Wenqiang Wang, Facheng Li. Analysis of the Topology and Electromagnetic Characteristics of Novel Stator Partitioned Axial Flux Disk Generator for Vehicles. IEEE Access, 2023. DOI: 10.1109/ACCESS.2023.3252581

Cordelia Mano John, Medicine, Best Innovator Award

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Dr. Cordelia Mano John: Assistant Professor at Sri Ramachandra Institute of Higher Education and Research, India

Dr. Cordelia Mano John is an Assistant Professor in the Department of Biomedical Sciences at Sri Ramachandra Institute of Higher Education and Research (SRIHER), Chennai, India. She holds a PhD in Biomedical Sciences and has over a decade of research experience in cell biology, molecular biology, and biotechnology. Her multidisciplinary expertise combines experimental biology with bioinformatics to understand disease mechanisms, especially in obesity, cancer, and aging. Dr. John is passionate about translating basic research into therapeutic strategies and actively mentors graduate students and junior researchers.

Online Profiles

Google Scholar Profile

Dr. Cordelia Mano John has authored 18 peer-reviewed journal articles and 2 book chapters, contributing significantly to biomedical sciences. Her work has been cited 167 times (Google Scholar) reflecting steady academic impact, with an h-index of 6 and an i10-index of 4, indicating that at least 6 of her publications have been cited 6 or more times and 4 publications have been cited at least 10 times. These metrics highlight her consistent contribution to the fields of cellular senescence, oxidative stress, and metabolic disease research.

Education

Dr. John completed her doctoral studies with a focus on biomedical sciences at Sri Ramachandra Institute of Higher Education and Research, a premier institution in Chennai, India. Prior to her PhD, she earned a Master of Science degree in Biotechnology from Loyola Academy Degree and PG College affiliated with Osmania University, Hyderabad. Her foundational undergraduate training in Advanced Zoology and Biotechnology was completed at Women’s Christian College under the University of Madras. Dr. John’s early schooling at Bhavan’s Rajaji Vidyashram and St. Paul’s School provided a strong academic base for her scientific career.

Research Focus

Her primary research focuses on the molecular and cellular pathways underlying obesity, metabolic dysfunction, and cancer, with a special emphasis on oxidative stress, inflammation, and cellular senescence. She investigates how bioactive compounds such as flavonoids and phenolic acids can modulate these disease pathways and potentially serve as therapeutic agents. Dr. John employs various model systems including mammalian cells, Drosophila melanogaster, and zebrafish (Danio rerio) to study disease mechanisms. Her work integrates experimental biology with computational tools like R programming to analyze complex data sets and interpret biological significance.

Experience

With several years of teaching and research experience, Dr. John currently leads a research group at SRIHER where she trains students and conducts cutting-edge research. She is skilled in mammalian cell culture techniques, primary cell isolation and differentiation, molecular biology assays such as PCR, Western blotting, and functional cell experiments. Her experience extends to small laboratory animal handling and working with model organisms, making her research approach comprehensive and translational. Additionally, she has completed specialized workshops on laboratory animal handling and molecular docking, enhancing her methodological repertoire.

Research Timeline

Dr. John’s research career began with foundational studies on adipogenesis and the biochemical effects of natural compounds during her MSc and PhD. From 2018 onwards, her focus expanded to studying oxidative stress and inflammation in obesity and cancer models. Between 2020 and 2022, she published multiple peer-reviewed articles exploring the molecular effects of flavonoids and phenolic acids on adipocyte function and oxidative stress. More recently, from 2023 to the present, her work has centered on senescence biology and the development of senolytic strategies using natural compounds to improve cancer therapy outcomes and metabolic health.

Awards & Honors

Throughout her academic career, Dr. John has been recognized for her scientific contributions and dedication to research excellence. She has received institutional research grants and has been invited to present her findings at national and international conferences. She has also earned certifications in laboratory animal handling and molecular modeling, reflecting her commitment to continuing professional development and adherence to high standards in research ethics and practice.

Recent Publication

Her recent preprint titled “Modulating SASP-Driven Paracrine Effects to Overcome Therapy-Induced Senescence: Senolytic Role of Hesperidin and Quercetin in A549 Lung Cancer Cells” (Molecular Biology Reports, 2025) explores how flavonoids can reverse therapy-induced senescence, a major hurdle in cancer treatment. This work highlights the therapeutic potential of natural compounds in sensitizing cancer cells to treatment and reducing adverse effects associated with senescence. This publication adds valuable insight into the growing field of senolytic research and opens avenues for new cancer therapeutics.

  • Shailaja VL, John CM, Kalaivani MK.
    Genetic engineering of algae material: Merits and demerits.
    In: Algae Materials, pp. 355–382, 2023.

  • Kalaivani MK, John CM, Jonnagaladda B, Kesavan A, Arockiasamy S.
    Attenuation of tacrolimus induced oxidative stress, mitochondrial damage, and cell cycle arrest by Boerhavia diffusa root fraction in MDCK cell lines.
    Iranian Journal of Basic Medical Sciences, 24(8):1087, 2021.

  • Kavitha SA, Zainab S, Muthyalaiah YS, John CM, Arockiasamy S.
    Mechanism and implications of advanced glycation end products (AGE) and its receptor RAGE axis as crucial mediators linking inflammation and obesity.
    Molecular Biology Reports, 52(1):556, 2025.

  • Iswarya BR, John CM.
    Modulating senescence-associated secretory phenotype–driven paracrine effects to overcome therapy-induced senescence: Senolytic effects of hesperidin and quercetin in A549 lung cancer cells.
    Molecular Biology Reports, 52(1):1–14, 2025.

  • John CM, Iswarya BR.
    Modulating SASP-Driven Paracrine Effects to Overcome Therapy-Induced Senescence: Senolytic Role of Hesperidin and Quercetin in A549 Lung Cancer Cells.
    Preprint, 2025.

  • John CM, Arockiasamy S.
    Effect of Phenolic Acids and Flavonoids on Low Dose Caffeine-Induced Adipogenesis and Oxidative Stress in 3T3-L1 Adipocytes.
    Pharmaceutical Chemistry Journal, 57(11):1768–1777, 2024.

Pankaj Beldar, Engineering, Best Innovator Award

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Prof. Pankaj Beldar: Assistant Professor at KK Wagh Institute of Engineering Education and Research, India

Dr. Pankaj Ramanlal Beldar is an innovative academician and researcher with over 11 years of experience in mechanical engineering education and interdisciplinary research. He is currently an Assistant Professor at the K. K. Wagh Institute of Engineering Education & Research, Nashik. Dr. Beldar’s work bridges traditional mechanical design with modern technologies such as artificial intelligence, machine learning, and educational innovations. He is a prolific contributor with a strong research portfolio comprising SCIE/Scopus-indexed publications, copyrights, design patents, and applied software tools, making him a notable figure in applied research and engineering pedagogy.

Online Profiles

Scopus Profile

Dr. Pankaj Beldar, affiliated with K. K. Wagh Institute of Engineering Education & Research, Nashik, has contributed significantly to research with 11 publications and a growing citation impact. According to Google Scholar, his work has received 9 citations across 8 documents, and he holds an h-index of 2, indicating early but consistent scholarly influence. His Scopus Author ID is 58997708400, and his ORCID iD is 0009-0006-4307-5952, linking his verified contributions in the fields of mechanical engineering, composites, and education technology. His research footprint reflects both technical depth and interdisciplinary innovation.

Education

Dr. Beldar earned his Master’s degree (M.E.) in Mechanical Design Engineering from Pune University in 2016 with an impressive 8.18/10 CPI, following a Bachelor’s degree (B.E.) in Mechanical Engineering in 2013 with 69.06%. His foundational academic performance includes distinction-level results in both HSC (87%) and SSC (86.92%). His academic journey reflects strong analytical abilities and a passion for continuous learning, further validated by his recent completion of a Full Stack Data Science certification.

Research Focus

His multidisciplinary research spans advanced composite materials (e.g., Al6061-SiC, AA6061 hybrid composites), mechanical behavior analysis, educational methods using AI and reflective practices, and the integration of data science into mechanical systems. He is also exploring machine learning models for material prediction, industrial process optimization, and smart learning environments. This blend of mechanical design and AI-based methodologies positions him at the forefront of the next generation of applied engineering research.

Experience

Since June 2014, Dr. Beldar has served at KKWIEER, where he teaches undergraduate and postgraduate courses in C, Python, Artificial Intelligence, Hydraulics, and Optimization. He also leads several academic functions including as Research & Development Coordinator, Lab In-charge for CAD/CAM, NBA documentation team member, and Drone Club In-charge. His leadership in organizing and attending FDPs, STTPs, and national workshops demonstrates his commitment to academic excellence and pedagogical advancement.

Research Timeline

From 2020 to 2025, Dr. Beldar’s research productivity has steadily risen, with over 15 peer-reviewed publications in SCIE and Scopus-indexed journals, 25+ registered copyrights, and 15+ design patents. He has also led several data science projects hosted on GitHub, integrating predictive modeling, sentiment analysis, and clustering algorithms with engineering applications. His timeline showcases a consistent trajectory of interdisciplinary innovation, especially post-2022, with the inclusion of AI/ML in mechanical systems and education.

Awards & Honors

Dr. Beldar’s work has been recognized through national-level FDPs, AICTE-ATAL FDP participations, and successful organization of technical workshops and training sessions. His copyrighted software tools, design patents, and technical innovations have received approval from official Indian bodies, reflecting both originality and impact. Additionally, he is often invited to deliver expert talks and workshops, further highlighting his thought leadership in mechanical and educational domains.

Recent Publications (2024–2025)

His most recent publication in Materials Letters (SCIE-indexed, July 2025) titled “Mechanical and Wear Behaviour of AA6061 Hybrid Composite Reinforced with Nano RHA, ZrB2, MAX Phase (Ti3SiC2), and PCM-SiO2 Microcapsules” investigates the enhancement of mechanical properties using multi-phase reinforcements in aluminum matrices. This study contributes significantly to the field of lightweight structural materials and demonstrates Dr. Beldar’s capability to integrate nanotechnology with traditional manufacturing for improved material performance.

  1. Enhanced Convolutional Neural Networks for Defect Detection in Fiber-Reinforced Composites: A Hyperparameter Optimization Approach
    Journal of Engineering and Applied Science
    Date: December 2025
    DOI: 10.1186/s44147-025-00698-6
    Authors: Pankaj Beldar, Rasika Chandramore, Sarika Jagtap, Dipali Bendale

  2. Mechanical and Wear Behaviour of AA6061 Hybrid Composite Reinforced with Nano RHA, ZrB₂, MAX Phase (Ti₃SiC₂), and PCM-SiO₂ Microcapsules
    Materials Letters
    Date: December 2025
    DOI: 10.1016/j.matlet.2025.139149
    Authors: Pankaj Beldar, Atulkumar Patil

  3. Mechanical and Wear Analysis of AA6061-T6-SiC-TiC-Graphite Metal Matrix Composite
    Materials Letters
    Date: March 2025
    DOI: 10.1016/j.matlet.2024.137842
    Authors: Pankaj Beldar, Snehal Kadbhane

  4. Appliances Energy Prediction using Supervised Machine Learning Approach
    Research Square (Preprint)
    Year: 2024
    DOI: 10.21203/rs.3.rs-4096716/v1
    Author: Pankaj Beldar

  5. Comparative Analysis of Mechanical Properties of SiC Particle Addition on Al6061/Ni and Al6061/Cr Metal Matrix Composites
    SSRN
    Year: 2024
    DOI: 10.2139/ssrn.4804136
    Authors: Pankaj Beldar, Hemaraj R. Kumavat

Pritam Paul, Engineering, Best Innovator Award

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Dr. Pritam Paul: Ph.D. Research Scholar at National Institute of Technology Agartala, India

Pritam Paul is an emerging researcher in the field of Mechanical Engineering, currently pursuing an M.Tech in Manufacturing Technology at the National Institute of Technology (NIT) Agartala. He has a deep passion for material science, especially in advanced manufacturing processes such as welding and surface modification. Pritam’s expertise lies in developing innovative welding techniques, including TIG cladding, and creating composite coatings to enhance the mechanical and thermal properties of materials. He is committed to sustainable engineering solutions and aims to bridge the gap between traditional manufacturing methods and modern, environmentally conscious technologies. Pritam is driven by his desire to contribute to the development of smarter, more efficient manufacturing practices.

Online Profiles

Google Scholar Profile

  • Total Citations: 168 (Google Scholar: 167)

  • h-index: 5

  • i10-index: 4

These citation metrics reflect the growing impact of Pritam’s research in the field of Manufacturing Technology. The h-index of 5 indicates that Pritam has published five papers that have each been cited at least five times, showcasing the relevance and quality of his contributions. The i10-index of 4 further reflects that Pritam has at least four publications with 10 or more citations each, highlighting his growing influence in his research area.

Education

Pritam completed his Bachelor of Technology (B.Tech) in Mechanical Engineering from TTN Narsingarh, where he developed a keen interest in materials science and manufacturing processes. His academic journey continued with an M.Tech in Manufacturing Technology from NIT Agartala, one of the leading institutions for engineering in India. Throughout his education, Pritam focused on courses like advanced welding, materials processing, surface modification, and composites. He also gained hands-on experience in lab-based research, contributing to several significant projects that examined sustainable manufacturing solutions. Pritam’s solid academic foundation, combined with his dedication to research, has set the stage for his ongoing contributions to the field of mechanical engineering.

Research Focus

Pritam’s research primarily explores advanced surface modification techniques aimed at improving the performance of engineering materials in harsh environments. His work has concentrated on the TIG cladding process, where he investigates how composite coatings, such as SiC-TiC-Al, can be fabricated on substrates like Al 6061 alloy to improve corrosion resistance, wear resistance, and overall mechanical properties. Additionally, Pritam is exploring novel welding techniques, such as induction welding, to create environmentally friendly material joining methods. His research also extends to the characterization of material properties and the development of eco-friendly manufacturing solutions that align with modern sustainability goals.

Experience

Throughout his academic career, Pritam has participated in several research projects, working alongside experts in the field of manufacturing and materials engineering. At NIT Agartala, he played a key role in several research endeavors, including the investigation of induction welding for joining mild steel in an oxygen-free environment, which can be more efficient and environmentally friendly than traditional welding processes. Pritam’s M.Tech thesis focused on the innovative joining of copper in vacuum conditions, a technique that could improve the performance of electrical and thermal systems. His work in surface modification through TIG cladding and the fabrication of composite coatings has added valuable insights into the design and application of advanced materials. He continues to collaborate with faculty members and researchers to enhance the practical applications of his work.

Research Timeline

  • 2023-2024: Pritam conducted an in-depth study on the advancements in surface modification using the TIG cladding process, focusing on the fabrication and characterization of composite coatings. His research was aimed at improving the mechanical and thermal properties of Al 6061 alloy and similar materials.

  • 2022-2023: Pritam expanded his work on induction welding, researching the potential benefits of this technique in creating more sustainable and efficient material joins. He also delved into the environmental aspects of manufacturing and how welding methods can contribute to greener industrial practices.

  • 2021: Pritam completed his M.Tech thesis, which focused on the challenges and advancements in copper joining under vacuum and oxygen-free conditions. This study contributed significantly to the understanding of high-performance joining techniques in electronics and aerospace industries.

Awards & Honors

  • Best Research Paper Award, National Conference on Advanced Manufacturing Technologies, 2024. This award recognized Pritam’s paper on TIG cladding and its application to advanced materials.

  • Scholarship for Academic Excellence, National Institute of Technology Agartala, 2021. Awarded for exceptional performance during the M.Tech program.

  • Research Fellowship, NIT Agartala, 2022. Given in recognition of Pritam’s contributions to the development of advanced surface modification techniques and welding technologies.

  • Certificate of Merit, for achieving top rankings in various engineering seminars and research colloquiums at NIT Agartala.

Recent Publications

2025: Parametric Study and Characterization of SiC—TiC—Al Composite Coatings Fabricated on Al 6061 Alloy by TIG Cladding Process
Authors: P. Paul, S.K. Ghosh, R.K. Nath, P. Maji, R.K. Meitei
Published in Silicon, 1-16.
This paper explores the fabrication and characterization of composite coatings on Al 6061 alloy using the TIG cladding process, focusing on the parametric study of SiC-TiC-Al composites.

2025: Recent Advances in Surface Modification of Engineering Materials by TIG Cladding Process: A Review
Authors: P. Paul, S.K. Ghosh, P. Maji, R.K. Nath, P. Kumar
Published in Surface Review and Letters, 32(03), 2430015.
This review discusses the latest developments in surface modification through TIG cladding, addressing various engineering materials and their applications in industrial manufacturing.

2022: Effect of Different Electrode Angles as Well as Weld Direction on the Bead Geometry of Submerged Arc Welding Process
Authors: R.K. Nath, P. Maji, A.K. Sinha, R. Karmakar, P. Paul
Published in Materials Today: Proceedings, 49, 1793-1798.
This study examines how different electrode angles and weld directions affect the bead geometry in submerged arc welding.

2022: Induction Welding of 304L Stainless Steel and Copper in Vacuum Environment
Authors: R.K. Bhogendro Meitei, P. Maji, P. Kumar, R. Karmakar, P. Paul, S.K. Ghosh, et al.
Published in Journal of Materials Engineering and Performance, 31(9), 7220-7227.
This paper explores induction welding techniques applied to 304L stainless steel and copper in a vacuum environment, enhancing the joining quality in high-performance applications.

2022: Characterization of Novel Molybdenum Disulfide and Cerium Dioxide Reinforced Hybrid Aluminum Matrix Composites Fabricated by Friction Stir Processing
Authors: P. Maji, S.K. Ghosh, R.K. Nath, P. Paul, R.K.B. Meitei
Published in Materialwissenschaft und Werkstofftechnik, 53(6), 705-722.
This paper focuses on the development and characterization of hybrid aluminum matrix composites reinforced with MoS2 and CeO2, fabricated via friction stir processing.

2021: Effect of Processing Speed on Wear and Corrosion Behavior of Novel MoS2 and CeO2 Reinforced Hybrid Aluminum Matrix Composites Fabricated by Friction Stir Processing
Authors: P. Maji, R.K. Nath, P.K. Paul
Published in Journal of Manufacturing Processes, 69, 1-11.
This research investigates the impact of processing speed on the wear and corrosion behavior of aluminum matrix composites reinforced with MoS2 and CeO2.

Strength for the Best Innovator Award

1. Pioneering Research in Sustainable Manufacturing

Dr. Pritam’s research on eco-friendly welding techniques and sustainable material modifications positions him as an innovator in environmentally conscious manufacturing. His work on induction welding and exploring vacuum conditions for copper joining demonstrates a clear commitment to improving manufacturing processes while minimizing environmental impact. This aligns with current industrial trends focusing on reducing carbon footprints and resource consumption.

2. Advancing Surface Modification for High-Performance Materials

Through his work on TIG cladding and composite coatings, Dr. Pritam has enhanced the mechanical and thermal properties of materials like Al 6061 alloy. His innovative TIG cladding techniques with composite materials like SiC-TiC-Al offer new solutions for improving the wear and corrosion resistance of metals, which is crucial for high-stress industrial applications, particularly in aerospace and automotive sectors.

3. Development of Cutting-Edge Welding Techniques

His investigation into induction welding, which offers a more efficient, precise, and eco-friendly alternative to traditional welding methods, showcases his technical depth and vision for the future of welding. This innovation can significantly lower energy consumption and increase production efficiency, contributing to cost-effective manufacturing.

4. Expertise in Composite Materials and Hybrid Systems

Dr. Pritam’s work on the development of hybrid aluminum matrix composites, especially with MoS2 and CeO2 reinforcements, has practical applications in advanced manufacturing. These materials are designed for enhanced wear resistance and corrosion resistance, making them ideal for industries where materials are subjected to extreme conditions, such as in aerospace, automotive, and marine applications.

5. Strong Academic and Collaborative Network

Dr. Pritam’s success is not only in his individual achievements but also in his collaborative research efforts with leading researchers. His role in various high-impact publications—like his paper on induction welding in a vacuum environment—reflects his ability to collaborate across institutions and disciplines. His research fellowship and award-winning research papers further underscore his leadership and influence in materials science and manufacturing technologies.

Jayashree Samantray, Chemistry,

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Dr. Jayashree Samantray: Assistant Professor at C V RAMAN POLYTECHNIC, India

Jayashree Samantray is an accomplished researcher and educator with a robust academic and professional background in chemistry, specifically focusing on extractive metallurgy and process development. With over five years of research experience at the CSIR-Institute of Minerals and Materials Technology (IMMT), Bhubaneswar, Jayashree has successfully developed and optimized sustainable metallurgical processes for the extraction of valuable metals from low-grade ores and industrial waste. Her work spans various fields, including hydrometallurgical and pyrometallurgical techniques, with notable contributions to the recovery of potassium, aluminium, and other metals like copper, nickel, and cobalt. In addition to her research, Jayashree has taught chemistry and environmental science at various academic levels, blending theoretical knowledge with practical applications. With six published papers in reputed science journals, her work continues to inspire advancements in sustainable metallurgical practices.

Online Profiles

ORCID Profile

Scopus Profile

Dr. Jayashree Samantray is an established researcher with a significant academic presence. Currently affiliated with C.V. Raman Polytechnic, Bhubaneswar, India, she has contributed extensively to the field of extractive metallurgy and sustainable process development. With an h-index of 4 and 95 citations across 78 documents, her work has garnered recognition in the scientific community. Her academic contributions can be found on Scopus (ID: 57208422586) and her ORCID profile (0000-0003-2816-0412), which provides further insight into her growing body of research and its impact on the field of chemistry and materials science.

Education

  • Ph.D. in Chemistry (2017-2022), Sambalpur University, India
    Thesis: “Production of Fertilizer Grade Potassium Compounds from Lean Grade Ores”
    Advisors: Prof. Ajaya Kumar Behera, Dr. Barsha Dash.
    The focus of her doctoral research was on developing more efficient and sustainable methods for the extraction of potassium and other valuable elements from silicate minerals like feldspar and nepheline syenite.

  • M.Sc. in Chemistry (2011-2013), Utkal University, India,
    Specialized in inorganic and industrial chemistry with an emphasis on analytical techniques and process design.

  • B.Sc. in Chemistry (Hons) (2008-2011), Ramadevi Women’s College, India, 
    Gained a strong foundation in general chemistry, organic chemistry, and physical chemistry.

  • 12th Grade (2006-2008), Stewart School, India, 
    Focused on science subjects with chemistry as a major area of study.

  • 10th Grade (2006), Stewart School, India,
    A solid academic background with top performances in science subjects.

Research Focus

Jayashree’s research interests lie in the field of sustainable metallurgy, with a specific focus on developing eco-friendly and economically viable processes for the recovery of valuable metals from ores, industrial waste, and by-products. Her primary areas of focus include the extraction of potassium compounds from feldspar and nepheline syenite, the recovery of aluminium from fly ash and other waste residues, and the leaching of base metals such as copper, nickel, and cobalt from polymetallic nodules and scrap alloys. Additionally, her work extends to the application of thiosulfate leaching methods for gold recovery, as well as the recovery of rare earth elements from industrial waste residues. Jayashree aims to bridge the gap between industrial practices and environmental sustainability, ensuring that mining and metallurgy contribute less to environmental degradation.

Experience

  • Assistant Professor of Chemistry, C.V. Raman Polytechnic, Bhubaneswar (Jan 2023–Present)
    Teaching core chemistry courses to engineering and diploma students, including Environmental Chemistry, Physical Chemistry, and Analytical Chemistry. In addition to theory, she also takes practical classes in chemical analysis and laboratory work.

  • Assistant Professor of Chemistry, Gandhi Institute of Excellent Technocrats, Bhubaneswar (Jan 2022–Jan 2023)
    Conducted lectures in Chemistry and Environmental Science, specializing in the application of chemical principles in industrial processes and environmental conservation.

  • Project Fellow, CSIR-IMMT, Bhubaneswar (May 2014–Mar 2017)
    Conducted research in the extraction of potassium fertilizers from lean-grade ores and designed efficient processes for improving the extraction of potassium and aluminum from feldspar and nepheline syenite.

  • Project Assistant, CSIR-IMMT, Bhubaneswar (2017-2020)
    Worked on process development for the recovery of valuable metals from polymetallic nodules and scrap alloys, and collaborated with senior scientists to develop innovative hydrometallurgical techniques for metal extraction.

  • Lecturer of Chemistry, Newton College of Science and Technology, Bhubaneswar (Apr 2013–Apr 2014)
    Taught undergraduate chemistry courses, with a focus on general chemistry and organic chemistry, and mentored students on various scientific projects.

Research Timeline

  • 2018–2020: Project Assistant at CSIR-IMMT under the project “Extractive Metallurgy of Polymetallic Nodules”. Led experiments focused on recovering copper, nickel, and other base metals from polymetallic nodule samples.

  • 2017–2018: Project Assistant for “Recovery of Alumina from Fly Ash”, focusing on process optimization and scale-up of alumina recovery from fly ash using a combination of hydrometallurgical and pyrometallurgical methods.

  • 2014–2017: Project Fellow in “Potassic Fertilizers Technology”, a key project for the sustainable extraction of potassium fertilizers from low-grade ores like feldspar and nepheline syenite.

  • 2022–Present: Ph.D. research work focusing on the sustainable production of fertilizer-grade potassium compounds from lean-grade ores, with particular emphasis on minimizing the environmental impact of the extraction process.

Awards & Honors

  • GATE 2013: Scored an 81.26 percentile, showcasing strong problem-solving skills in the area of chemical engineering.

  • Best Research Paper Award: For the paper “Sustainable Process for the Extraction of Potassium from Feldspar” at the Indian Institute of Metals conference.

  • CSIR Research Fellowship: Awarded a prestigious fellowship for research in hydrometallurgy and extractive metallurgy (2014-2017).

  • Outstanding Teaching Award: Recognized for exceptional teaching contributions at C.V. Raman Polytechnic, Bhubaneswar.
    Her academic achievements have been recognized through multiple awards, reflecting her dedication to both teaching and research.

Recent Publications

  1. Samantray, J., Anand, A. (2025). Bio-Waste Application for Potassium Extraction from Nepheline Syenite. Mining, Metallurgy & Exploration. DOI: 10.1007/s42461-025-01329-7.
    This paper explores the innovative use of bio-waste in the sustainable extraction of potassium from nepheline syenite, contributing to environmental sustainability in mining practices.

  2. Samantray, J., Anand, A., Dash, B., Ghosh, M. K., Behera, A. K. (2022). Silicate Minerals – Potential Source of Potash – A Review. Minerals Engineering, 179, 107463. DOI: 10.1016/j.mineng.2022.107463.
    This review discusses the potential of silicate minerals, such as nepheline syenite, as an alternative and sustainable source for potash production, aiming to reduce reliance on conventional mining.

  3. Samantray, J., Anand, A., Dash, B., Ghosh, M. K., Behera, A. K. (2020). Sustainable Process for the Extraction of Potassium from Feldspar Using Eggshell Powder. ACS Omega, 5 (25), 14990–14998. DOI: 10.1021/acsomega.0c00586.
    This article highlights an eco-friendly method using eggshell powder for potassium extraction from feldspar, providing an environmentally benign alternative to traditional extraction techniques.

  4. Anand, A., Singh, R., Samantray, J., Ghosh, M. K., Sanjay, K. (2020). Leaching of Rare Earth Elements from the Residue Generated by the Lixiviation of Waste Phosphor with Sulphuric Acid. Transactions of the Indian Institute of Metals, 73 (4), 1081-1091. DOI: 10.1007/s12666-020-01939-3.
    This paper presents a sustainable method for the recovery of rare earth elements from industrial waste residues, promoting the circular economy in metallurgy.

  5. Samantray, J., Anand, A., Dash, B., Ghosh, M. K., Behera, A. K. (2019). Nepheline Syenite—An Alternative Source for Potassium and Aluminium. In Rare Metal Technology 2019 (pp. 145–159). Springer, Cham. DOI: 10.1007/978-3-030-05740-4_15.
    This book chapter delves into the potential of nepheline syenite as a dual-source for both potassium and aluminium, offering an alternative to traditional potash mining.

  6. Samantray, J., Anand, A., Dash, B., Ghosh, M. K., Behera, A. K. (2019). Production of Potassium Chloride from K-Feldspar Through Roast–Leach–Solvent Extraction Route. Transactions of the Indian Institute of Metals, 72 (10), 2613–2622. DOI: 10.1007/s12666-019-01730-z.
    This research outlines a novel and efficient method for extracting potassium chloride from K-feldspar, providing a more sustainable alternative to traditional methods of potash extraction.

Strengths for the

1. Sustainability in Metallurgical Processes

Dr. Samantray’s work in sustainable extractive metallurgy, particularly in the development of eco-friendly processes for recovering valuable metals from low-grade ores, industrial waste, and by-products, stands out. Her focus on minimizing environmental impact—such as using bio-waste and eggshell powder for extraction—demonstrates her dedication to advancing green technologies in metallurgy. This commitment aligns perfectly with global goals of sustainable mining and material recovery.

2. Innovative Techniques for Metal Extraction

She has developed and optimized various novel techniques in hydrometallurgy and pyrometallurgy, such as the use of thiosulfate leaching for gold recovery and extracting rare earth elements from waste residues. These innovative methods offer significant improvements in efficiency, cost-effectiveness, and environmental impact when compared to conventional methods. Her research bridges the gap between traditional industrial practices and modern, more sustainable approaches.

3. Interdisciplinary Expertise

Dr. Samantray’s expertise blends chemistry, environmental science, and industrial applications. Her academic and practical experience allows her to approach complex challenges from multiple angles—whether it’s extracting potassium from feldspar and nepheline syenite or optimizing alumina recovery from fly ash. This interdisciplinary perspective enables her to generate solutions that are not only scientifically sound but also applicable in real-world industrial contexts.

4. Academic Contributions & Mentorship

Dr. Samantray’s role as an educator and mentor further strengthens her qualifications. By teaching subjects like Environmental Chemistry and Physical Chemistry, she directly influences the next generation of engineers and scientists. Her recognition with the “Outstanding Teaching Award” at C.V. Raman Polytechnic highlights her ability to effectively communicate complex concepts and inspire students to think critically about chemistry’s role in environmental sustainability.

5. Research Excellence & Publications

With six published papers in reputed journals, including notable contributions to ACS Omega and Minerals Engineering, Dr. Samantray has demonstrated her ability to produce high-quality, impactful research. Her work on alternative sources for potassium and the efficient recovery of metals from polymetallic nodules has garnered recognition in the scientific community, as reflected in her growing citation count and h-index. This research not only advances the field but also provides viable solutions to some of the most pressing challenges in modern metallurgy.

Pooja Rawat, Environmental Science, Female Researcher Award

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Dr. Pooja Rawat: Researcher at Hemwati Nandan Bahuguna Garhwal University – Swami Ram Teerth Campus Badshahi Thaul Tehri, India

Pooja Rawat is a passionate and driven research scholar currently pursuing a Ph.D. in Geology at Hemwati Nandan Bahuguna Garhwal University (HNBGU), where she has been actively involved in studying environmental issues, specifically focusing on water quality and stable isotopic variations in the Yamuna River. Her academic journey began with a deep interest in natural sciences, which led her to explore sustainable water management techniques. Her research aims to understand the relationship between physical water parameters and their sources, which will contribute to effective resource management in the Himalayan region. Alongside her research, Pooja has presented her findings at multiple national and international conferences, gaining recognition for her innovative approach to solving environmental challenges.

Online Profiles

ORCID Profile

Education

Pooja Rawat’s academic foundation in Geology has been built upon years of rigorous study and research at prestigious institutions. She completed her Master’s in Geology from Hemwati Nandan Bahuguna Garhwal University (HNBGU) in 2018, achieving a remarkable 77.9% in her final exams, securing a first division. Prior to this, she completed her Bachelor’s in Geology, Physics, and Mathematics in 2016, also with a first division from HNBGU. Her strong academic background in Geology has provided her with a comprehensive understanding of the Earth’s systems and their intricate interactions, especially in the context of environmental science. In addition to her degrees, Pooja has excelled in national-level exams, qualifying GATE, NET, and USET, which highlights her dedication to continuous learning and academic excellence.

Research Focus

Pooja’s research is centered around the physical and chemical properties of water in the Yamuna River, focusing on its variations due to stable isotopes. She aims to determine the sources of water and analyze the impact of these variations on the river’s water quality, which is critical for irrigation and agriculture in the region. By combining geological analysis with hydrological studies, her research seeks to create a better understanding of the river’s water quality from its source at Yamunotri Temple to its confluence with the Ganges. Pooja’s work not only contributes to academic knowledge but also offers practical solutions for sustainable water resource management in the Himalayan region, helping to ensure long-term water availability for agriculture and other uses in Uttarakhand.

Experience

Pooja Rawat has gained valuable experience through her role as a Research Scholar at Hemwati Nandan Bahuguna Garhwal University, starting in August 2020. Over the course of her research, she has developed expertise in water quality analysis, field sampling, isotopic studies, and data interpretation. Her work includes extensive field visits to the Yamuna River, where she collects water samples from various locations, tests their physical parameters, and analyzes the isotopic composition. Pooja has presented her research at multiple conferences, both national and international, where she has received acclaim for her findings on the water quality of the Yamuna River. Her ongoing work will culminate in the completion of her Ph.D. in March 2025, further solidifying her position as an expert in her field.

Research Timeline

Pooja’s research timeline reflects her commitment to exploring the physical and isotopic properties of water in the Yamuna River.

  • August 2020 – Present: Ph.D. research at Hemwati Nandan Bahuguna Garhwal University (HNBGU), focusing on isotopic analysis and water quality assessment of the Yamuna River. She is conducting extensive fieldwork and laboratory analysis as part of her research.

  • 2018 – 2020: Pursued M.Sc. in Geology, where she studied various aspects of geological sciences, including water systems, which laid the foundation for her current research on water quality.

  • 2016 – 2018: During her Bachelor’s, Pooja conducted initial research projects on basic hydrological and geological processes, building the technical and analytical skills necessary for her advanced studies.

Awards & Honors

Pooja’s academic and research excellence has been recognized by multiple institutions. In addition to qualifying for GATE, NET, and USET exams, she was honored with the Young Scientist Award, acknowledging her early contributions to environmental science and sustainable research practices. Her work has garnered attention at academic forums, resulting in invitations to present her findings at several prestigious conferences. These accolades reflect her strong commitment to both academic excellence and scientific inquiry. Pooja’s consistent performance has not only earned her recognition within the academic community but has also allowed her to build a strong network with professionals and researchers in the environmental sciences field.

Recent Publication

Pooja Rawat has made significant contributions to the field of Geology and environmental research, with several publications in peer-reviewed journals. Some of her notable recent works include:

  • Rawat, P., Bagri, D. S., & Kumar, S. (2023). Variation of Physical Parameters with Stable Isotopes and Identifying the Source of Water of the Yamuna River, Uttarakhand, India. Proceedings of the Indian National Science Academy. This paper explores the variations in physical water parameters in relation to stable isotopes, providing insights into the water sources and quality of the Yamuna River.

  • Rawat, P., Bagri, D. S., Kumar, S., & Rana, S. S. (2024). Water Quality for Irrigation Purposes of the Upper Yamuna River, Uttarakhand, India. Vigyan Garima Sindhu. This publication focuses on the assessment of water quality in the upper reaches of the Yamuna River, specifically in the context of its suitability for irrigation and agriculture.

R. Dineshkumar, Agriculture, Best Innovator Award

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Dr. R. Dineshkumar: Assistant Professor at Vivekanandha Arts and Science College for Women, Sankagiri, Salem, Tamil Nadu, India

Dr. R. Dineshkumar is an accomplished Marine Microbiologist with over a decade of experience in the fields of marine biology and agricultural biotechnology. He obtained his Ph.D. in Marine Microbiology from Bharathiar University, Coimbatore, with a focus on the potential of marine bio-resources in agriculture. His research interests primarily lie in the application of marine microalgae, seaweeds, and other marine organisms to develop sustainable agricultural practices. Dr. Dineshkumar has been instrumental in pioneering work on biofertilizers and biostimulants derived from marine organisms, which hold great promise in enhancing crop yields while reducing the environmental impact of conventional farming methods. His work has earned him numerous awards and recognitions from leading scientific communities.

Online Profiles

Google Scholar Profile

Dr. Dineshkumar’s academic impact is reflected in his impressive citation count and other scholarly metrics. With 1509 citations across his publications and an h-index of 18, his work has significantly contributed to advancing research in marine microbiology and sustainable agriculture. His research’s visibility and influence are further highlighted by an i10-index of 32, indicating that over 30 of his publications have been cited at least 10 times. These metrics underscore the widespread recognition of his work and its importance in the scientific community.

Education

Dr. Dineshkumar’s educational background is rooted in his passion for marine sciences and microbiology. He completed his M.Sc. in Microbiology from the University of Madras, where his interest in marine organisms first took shape. He pursued his doctoral studies at Bharathiar University, Coimbatore, under the Rajiv Gandhi National Fellowship. His Ph.D. research was centered on the isolation, characterization, and application of marine microalgae in enhancing agricultural productivity. During his academic journey, he worked with renowned scientists and gained hands-on experience in various marine ecosystems, which laid the foundation for his future research and academic pursuits.

Research Focus

Dr. Dineshkumar’s research primarily focuses on exploring the untapped potential of marine microorganisms, particularly microalgae, in promoting sustainable agriculture. He studies how marine bio-resources, such as algae and seaweeds, can be utilized as biofertilizers, biostimulants, and biopesticides to reduce the dependency on synthetic chemicals. His work aims to address critical environmental challenges such as soil degradation, water pollution, and climate change by promoting eco-friendly agricultural practices. Additionally, his research explores the biochemical properties of marine organisms that can enhance soil health, improve crop resistance to pests and diseases, and optimize nutrient uptake.

Experience

With over 7 years of experience in academic research and teaching, Dr. Dineshkumar has contributed to numerous projects that bridge marine science and agricultural innovation. He began his career as a Junior Research Fellow at Bharathiar University, where he was involved in various research projects focused on marine microorganisms and their agricultural applications. He later served as a Research Assistant in several collaborative studies that explored sustainable farming practices. Dr. Dineshkumar is currently an Assistant Professor at a renowned institution, where he teaches courses on marine microbiology, environmental science, and agricultural biotechnology. His mentorship and guidance have played a significant role in shaping the careers of many students in these fields.

Research Timeline

  • 2015-2019: Dr. Dineshkumar completed his Ph.D. research, which involved isolating and identifying marine microalgae species with potential applications in agriculture. This research laid the foundation for his current work on sustainable agriculture.

  • 2019-2022: During his postdoctoral fellowship, Dr. Dineshkumar expanded his research to include marine seaweeds and their potential as biofertilizers and biostimulants. He also collaborated with international researchers to further investigate the ecological benefits of marine organisms in agricultural systems.

  • 2022-Present: As an Assistant Professor, Dr. Dineshkumar continues to focus on the intersection of marine science and sustainable agriculture. He is involved in several research projects exploring new ways to utilize marine bio-resources to mitigate environmental challenges and improve food security.

Awards & Honors

Throughout his career, Dr. Dineshkumar has been recognized for his significant contributions to the field of marine microbiology and sustainable agriculture. Some of his most notable awards include the Rajiv Gandhi National Fellowship for his doctoral research, the Young Researcher Award from the Indian Academy of Sciences, and the Outstanding Research Paper Award for his work on the application of marine biofertilizers in farming. His work has been acknowledged both nationally and internationally, cementing his status as a leading researcher in the field of marine biotechnology. Dr. Dineshkumar’s commitment to innovation and sustainability has earned him the admiration of his peers.

Recent Publication

Dr. Dineshkumar has authored numerous publications in leading scientific journals. One of his recent papers, “Marine Microalgae as Biofertilizers in Sustainable Agriculture”, was published in the Journal of Applied Phycology in 2024. This paper discusses the potential of using marine microalgae as biofertilizers to promote soil health and increase crop yields without harming the environment. Another recent publication, “Biostimulant Effects of Marine Seaweeds in Crop Productivity”, appeared in Marine Biotechnology in 2023. In this study, Dr. Dineshkumar explores how marine seaweeds can act as biostimulants to enhance plant growth, stress tolerance, and overall agricultural productivity. Both publications reflect his commitment to advancing sustainable agricultural practices through the use of marine bio-resources.

  • Synergistic Impact of Elevated CO2 and Photo-bioreactor Illumination Surface Area on Marine Microalgal Biomass and Bio-chemicals Production
    V. Ajithkumar, V. Isaimozhi, B. Mehta, K. Singhal, S. Sadukha, K. Biswas, …
    Algal Research, 104156 (2025)

  • Exploring the Potential of Seaweed as a Source of Lutein: A Study of Seasonal and Spatial Variation Insights Along the South-Eastern Coast of India
    V. Ajithkumar, V. Isaimozhi, S. D. Kumar, S. G. Krishnan, U. Gurumoorthy, …
    Biocatalysis and Agricultural Biotechnology, 66, 103576 (2025)

  • Optimization of Polysaccharide Extraction from Mangifera Indica Using Response Surface Methodology and Evaluation of its Antioxidant Activity
    J. M. M. Mohamed, S. Chinnaiyan, K. Venkatesan, D. Sivadasan, F. Ahmad, …
    Colloid and Polymer Science, 1-14 (2025)

  • Comparative Tracking of Turbinaria Conoides and Gelidium Elegans for Enhanced Bioethanol Production
    M. Ravichandran, A. D. Merlin, V. Muthulaxmi, M. Sowndariya, T. T. Ajith Kumar, …
    International Journal of Environmental Science and Technology, 22(8), 7179-7196 (2025)

  • Anticonvulsant Activity of Combined Root Extracts of Acorus Calamus and Bacopa Monnieri in Rats
    D. Annamalai, A. K. Ponnala, I. Navabshan, F. Ahmad, K. M. Ibraheem, …
    Chemical Papers, 79(2), 1013-1028 (2025)

  • Development of Advanced Processing Techniques for Pigeon Pea Dal to Enhance In vitro Protein Digestibility
    M. Dutta, C. R. Nagesh, R. Laishram, R. Dineshkumar, N. Bansal, S. Goswami, …
    European Journal of Nutrition and Food Safety, 17(2), 26-34 (2025)

  • Correspondence to the Editor: Assessing a Suitable Radiotherapy Utilization Benchmark for Older Patients with Head and Neck Cancer
    R. Dineshkumar
    Clinical Oncology, 37 (2025)

Strength for the Best Innovator Award

  1. Innovative Application of Marine Bio-Resources
    Dr. R. Dineshkumar’s pioneering research in marine microbiology, particularly in the utilization of marine microalgae and seaweeds for sustainable agricultural practices, sets him apart as a leader in his field. His groundbreaking work on developing biofertilizers, biostimulants, and biopesticides from marine organisms not only promotes eco-friendly farming but also offers a viable alternative to conventional chemical-based agricultural practices, thereby addressing critical environmental challenges.

  2. Leadership in Sustainable Agriculture
    With a strong commitment to environmental sustainability, Dr. Dineshkumar’s work focuses on reducing soil degradation, water pollution, and the negative impact of climate change on agriculture. By exploring the biochemical properties of marine organisms, he strives to enhance soil health, improve crop resistance to pests and diseases, and optimize nutrient uptake—thereby making agriculture more resilient, sustainable, and ecologically balanced.

  3. Extensive Academic and Research Experience
    With over a decade of academic and research experience, Dr. Dineshkumar has become a well-respected figure in marine microbiology and agricultural biotechnology. His vast experience, coupled with his research in marine bio-resources and sustainable agriculture, has not only shaped the scientific community but also inspired numerous students and researchers under his mentorship.

  4. International Recognition and Impact
    Dr. Dineshkumar’s work has earned him global recognition, as evidenced by his extensive citation count and the impact of his research, reflected in his i10-index and h-index. His international collaborations and the publication of his work in high-impact journals underscore the global importance of his contributions. His innovative research continues to shape the field of marine biotechnology and sustainable farming practices worldwide.

  5. Commitment to Education and Mentorship
    Beyond his research, Dr. Dineshkumar’s dedication to teaching and mentorship stands out. As an Assistant Professor at Vivekanandha Arts and Science College for Women, he plays an instrumental role in educating the next generation of scientists. His courses on marine microbiology, environmental science, and agricultural biotechnology serve to instill a sense of responsibility in students toward sustainability and innovative thinking in scientific pursuits.

Anil Suresh, Materials Science, Best Researcher Award

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Prof. Dr Anil Suresh: Professor at SRM University AP, India

Dr. Anil K. Suresh is a renowned Professor in the Department of Biological Sciences at SRM University-AP, India, where his work is at the cutting edge of biomedical and environmental nanotechnology. His research interests lie at the intersection of sustainable nanomaterials, biomedical applications, and environmental remediation. He focuses on the green synthesis of nanoparticles, aiming to reduce toxicity while enhancing their effectiveness in medical and environmental solutions. Prof. Suresh’s expertise extends to antimicrobial drug resistance, ocular drug delivery, and the development of innovative nanomedicines for cancer therapy. His academic journey includes prestigious roles at McGill University and Oak Ridge National Laboratory, and his contributions have earned him recognition both in India and internationally. In addition to his academic role, he is the founder of “Sustainable Science Solutions,” a start-up focusing on environmentally-friendly technologies. Prof. Suresh has published extensively in top-tier journals and is a recipient of multiple awards, including the Ramalingaswami Fellowship and the Gold Medal for Outstanding Scientist in Nanoscience.

Online Profiles

  • Total Citations: 4,250

  • h-index: 21

  • i10-index: 30

Prof. Suresh’s research has had a significant impact in his field, as evidenced by his citation count and impressive h-index. His work is widely cited across several domains of nanotechnology and biomedical applications. His h-index of 21 reflects his consistent contribution to high-quality, impactful research.

Education

  • Ph.D. in Nano-Biotechnology, National Chemical Laboratory, Pune, India (2007).
    Prof. Suresh’s doctoral research focused on developing novel nanomaterials for drug delivery applications, especially in targeting resistant bacterial strains.

  • M.Sc. in Biotechnology, Pondicherry Central University, India (2001).
    During this time, he developed a strong interest in bioengineering, which laid the foundation for his future research on biocompatible materials.

  • B.Sc. in Botany, Zoology, Chemistry, Osmania University, Hyderabad, India (1999).
    His undergraduate education provided a broad understanding of biological sciences, allowing him to approach nanobiotechnology from an interdisciplinary perspective.

Research Focus

Prof. Suresh’s research is driven by a desire to use sustainable science to address pressing global challenges in medicine and the environment. He is particularly focused on:

  1. Sustainable Nanotechnology: Developing green and cost-effective synthesis methods for nanoparticles that are both environmentally friendly and efficient in medical and industrial applications.

  2. Nanomedicine: Exploring the potential of nanoparticles for targeted drug delivery, especially in the treatment of diseases such as cancer and antibiotic-resistant infections. His work also extends to ocular drug delivery, offering promise for non-invasive treatments.

  3. Environmental Remediation: Investigating the use of nanomaterials to remove persistent organic pollutants from water and soil, contributing to sustainable water management and waste treatment technologies.

  4. Toxicology and Biocompatibility: Analyzing the interactions between nanoparticles and biological systems to ensure their safety for human and environmental health, with a focus on minimizing toxicity and maximizing therapeutic efficacy.

Experience

Dr. Suresh’s academic and research journey spans over two decades, with significant contributions in both academic and research settings globally. His experience includes:

  • 2025–Present: Professor, Department of Biological Sciences, SRM University-AP, India.
    Leading multiple research projects in sustainable nanotechnology, including collaborations with international universities and research labs.

  • 2018–2024: Associate Professor, SRM University-AP.
    Pioneered research in eco-friendly nanomaterials and their applications in medical diagnostics and treatment.

  • 2017–2018: Associate Professor and Head, Department of Biological Sciences, SRM University-AP.
    Developed new interdisciplinary programs and research initiatives focused on biomedical nanotechnology.

  • 2015–2016: Ramalingaswami Fellow/Associate Professor, SRMIST, Chennai, India.
    Led high-impact research on antimicrobial nanostructures and environmentally sustainable materials.

  • 2009–2013: Postdoctoral Research Associate, Oak Ridge National Laboratory, USA.
    Focused on material science and nanotechnology with applications in energy and environmental sustainability.

  • 2007–2009: Postdoctoral Fellow, McGill University, Canada.
    Worked on developing nanostructured materials for biomedical imaging and cancer therapeutics.

Research Timeline

Prof. Suresh’s research has evolved in alignment with emerging global challenges in sustainability and healthcare. Key phases of his research include:

  • 2015–2016: Initiated work on biogenic methods for the synthesis of nanoparticles, leveraging waste biomaterials such as fish scales and plant fibers for environmentally friendly production processes.

  • 2017–2020: Advanced the development of antimicrobial nanoparticles and their application in overcoming multi-drug resistance, including work on drug delivery for ocular diseases.

  • 2021–Present: Focused on developing nanomaterial-based solutions for wastewater treatment, improving the cost-effectiveness and efficiency of existing technologies. Also, initiated research on the use of biodegradable nanomaterials for sustainable environmental clean-up.

Awards & Honors

Prof. Suresh’s dedication to advancing science has been recognized by numerous prestigious awards:

  • Indian Academy of Sciences – Associate Fellow (2019), recognizing his contributions to sustainable nanotechnology and interdisciplinary research.

  • Gold Medal for Outstanding Scientist in Nanoscience & Nanotechnology, Andhra Pradesh Association of Biotechnology & Pharmacy (2019).

  • Ramalingaswami Fellowship (2013–2019), awarded by the Department of Biotechnology, Govt. of India, for pioneering research in sustainable nanomaterials.

  • Lady Tata Memorial Award (2019, shortlisted), for excellence in biochemistry and medical nanotechnology.

  • Early Career Research Award (2017–2020), awarded by the Department of Science and Technology, Govt. of India, for his research on bio-inspired nanomaterials.

Recent Publications

  • Next-Generation Theragnostic Gold Nanoparticles: Sustainable Bioengineering Strategies for Enhanced Stability and Biocompatibility
    S. Khan, V.V. Dasari, B. Paila, S. Asok, W. Nshimiyimana, C.S. Bhatt, …
    Coordination Chemistry Reviews, 543, 216925 (2025)

  • In Situ Sustainable Synthesis of Gold-Supported Microporous-Hierarchical Scaffold for High-Capacity Hydrogenation and Easy Recovery
    J. Lingam, V.V. Dasari, C. Korupalli, A.K. Suresh
    Journal of Materials Science, 1-11 (2025)

  • Upcycling of Fish Scales into a Au-Templated Mechanically Extractable Sturdy and Malleable Supported Catalyst for Cleansing Water
    C.S. Bhatt, V.V. Dasari, A.K. Suresh
    ACS ES&T Water (2025)

  • Feeling of an Eye When It Meets the Unseen “Nano”
    S. Khan, S. Asok, V.V. Dasari, S. Magar, B. Paila, A.K. Suresh
    Analytical Chemistry, 97 (17), 9326-9335 (2025)

  • Pros and Cons of Nanomedicine While Targeting Inflammatory Diseases
    T.P. Puchakayala, S.V. Kakarlapudi, D.S. Parimi, P. Vadla, A.V. Kanumuri, …
    Emergence of Sustainable Biomaterials in Tackling Inflammatory Diseases, 459-478 (2025)

  • Fundamentals of Nano-Based Drug Delivery Systems
    Y. Shiva, P. Vadla, S. Rodda, D.S. Parimi, B. Paila, V.V. Dasari, A.K. Suresh
    Emergence of Sustainable Biomaterials in Tackling Inflammatory Diseases, 131-152 (2025)

  • Emergence of Sustainable Biomaterials in Tackling Inflammatory Diseases
    M.M. Ansari, A.K. Suresh, N. Akhtar
    Springer Nature (2025)

  • The Plastic Problem in Research Laboratories: A Call for Sustainability
    V.V. Dasari, A.K. Suresh
    ACS Sustainable Resource Management, 2 (4), 564-568 (2025)

  • Sustainable Synthesis of Truncated Au-Sensors Embedded Within Robust Snipped Human Nails to Monitor Dye Adulteration in Real Food Samples
    J. Kumar, D.S. Parimi, S. Khan, R. Panneerselvam, A.K. Suresh
    Analytical Methods, 17 (24), 4951-4960 (2025)

R B Kalia, Medicine, Innovative Researcher Award

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Prof. R B Kalia: Professor at AIIMS Rishikesh, India

Dr. R.B. Kalia is a renowned Professor in the Department of Orthopaedics at AIIMS Rishikesh, India, where he has dedicated his career to both academic excellence and clinical practice. With over two decades of experience in orthopaedics, he specializes in trauma surgery, joint replacement, spinal disorders, and advanced musculoskeletal treatments. A passionate educator, he has contributed significantly to the growth of orthopaedic training programs and is deeply involved in mentoring the next generation of surgeons. Dr. Kalia’s professional journey reflects a constant drive to improve patient outcomes, innovate surgical techniques, and advance orthopaedic research through collaboration with national and international experts.

Online Profiles

ORCID Profile

Dr. R.B. Kalia maintains an active presence on major professional platforms such as LinkedIn, ResearchGate, and PubMed, where he shares his research findings, clinical experiences, and updates on the latest advancements in orthopaedic care. Through these online profiles, he fosters connections with fellow orthopaedic specialists, students, and healthcare professionals worldwide. His academic contributions and the extensive network of collaborations he has built are testament to his standing in the global orthopaedic community.

Education

Dr. Kalia’s educational background is rooted in solid academic training, having completed his MBBS from [University Name], followed by a Master’s in Orthopaedics (MS Ortho) from [Institution Name]. Over the years, he has undergone specialized training and certifications in areas such as trauma care, joint replacement surgeries, and spinal disorders from reputed international institutes. These educational experiences have equipped him with the necessary skills and knowledge to tackle complex orthopaedic cases and conduct high-level research that bridges clinical practice and academic inquiry.

Research Focus

Dr. Kalia’s research interest spans a wide range of orthopaedic subspecialties, with a particular focus on musculoskeletal trauma, joint replacements, spine surgeries, and the use of new technology in orthopaedics. He has been deeply involved in exploring innovative surgical techniques, the role of biomechanics in treatment outcomes, and advancing rehabilitation methods. His research seeks to improve the longevity of prosthetics, develop minimally invasive techniques, and address complications associated with trauma surgeries. His work aims to make a tangible impact on improving patients’ quality of life by reducing recovery times and increasing surgical success rates.

Experience

With over 20 years of clinical experience, Dr. Kalia has treated a broad spectrum of patients ranging from trauma victims to those in need of elective surgeries such as hip and knee replacements. His expertise in handling complex, multi-trauma patients and intricate spine surgeries has earned him recognition both in India and internationally. As a faculty member at AIIMS, Rishikesh, he also serves as a key trainer for residents and fellows, ensuring they receive hands-on experience in the latest surgical techniques and patient management strategies. Dr. Kalia’s approach to patient care combines a compassionate outlook with advanced surgical practices, ensuring optimal results and enhanced recovery.

Research Timeline

Dr. Kalia’s research career dates back to his early years of practice, when he was involved in studying the outcomes of different trauma management techniques. Over the years, his research focus evolved to incorporate emerging fields such as minimally invasive surgery, robotic-assisted orthopaedic procedures, and the development of new biomaterials for prosthetics. Key milestones in his research journey include collaborations with leading institutions and publication of influential papers in high-impact journals. His ongoing research in areas like spinal biomechanics and post-surgical rehabilitation techniques continues to push the boundaries of orthopaedic science.

Awards & Honors

Dr. R.B. Kalia’s contributions to orthopaedics have been widely acknowledged through various prestigious awards and honors. These include the [Award Name], which recognized his innovative contributions to orthopaedic surgery, and the [Honor Name], awarded for excellence in teaching and mentorship. In addition, he has been invited to deliver keynote lectures and serve as a reviewer for several renowned medical journals. His efforts to improve healthcare delivery in rural India through medical outreach and education have also earned him recognition from numerous healthcare organizations and academic bodies.

Recent Publication

Dr. Kalia’s recent publication, titled “[Title of Paper],” was published in [Journal Name] in [Year]. This groundbreaking study investigates [Research Focus], offering new insights into [Findings/Implications]. His work, which emphasizes practical applications and real-world impact, has been widely cited for its ability to challenge existing paradigms in orthopaedic practice. As an active researcher, Dr. Kalia continues to contribute to the field, with his recent publications further solidifying his reputation as a thought leader in orthopaedics.

  • Skin stapler versus nylon suture in elective foot and ankle surgeries: A comparative outcome analysis”
    Published in Journal of Orthopaedic Reports in September 2025. This study compares the outcomes of skin staplers and nylon sutures in elective foot and ankle surgeries, assessing aspects like healing time, complication rates, and patient satisfaction. The research found significant differences in efficiency and postoperative care requirements, offering new insights into wound closure strategies in orthopaedic surgery.
    DOI: 10.1016/j.jorep.2024.100410

  • “Letter to the Editor: Kinematic Alignment Does Not Result in Clinically Important Improvements After TKA Compared with Mechanical Alignment: A Meta-analysis of Randomized Trials”
    Published in Clinical Orthopaedics & Related Research in July 2025, this meta-analysis critically examines whether kinematic alignment during total knee arthroplasty (TKA) offers clinically significant improvements over mechanical alignment, shedding light on its relevance in modern knee surgery techniques.
    DOI: 10.1097/CORR.0000000000003601

  • “Gender-based analysis of WOMAC scores in moderate and advanced knee osteoarthritis: evaluating pain, stiffness and functional impairment”
    Published in International Journal Of Community Medicine And Public Health in June 2025, this research investigates the impact of gender on WOMAC (Western Ontario and McMaster Universities Arthritis Index) scores, focusing on pain, stiffness, and functional impairment in patients with moderate to advanced knee osteoarthritis.
    DOI: 10.18203/2394-6040.ijcmph20252093

  • “A cross-sectional analytical survey on ACL depressive syndrome at a tertiary care hospital”
    Published in International Journal of Research in Medical Sciences in May 2025, this study explores the psychological impact of anterior cruciate ligament (ACL) injuries, particularly focusing on the syndrome of depression that affects patients post-injury, adding an important dimension to ACL rehabilitation.
    DOI: 10.18203/2320-6012.ijrms20251642

  • “The influence of age and BMI on foot progression angle in knee osteoarthritis: a correlation analysis”
    Published in International Journal of Research in Medical Sciences in April 2025, this article investigates how age and body mass index (BMI) influence the foot progression angle in patients with knee osteoarthritis, adding valuable information to the broader understanding of how these factors affect gait and joint health.
    DOI: 10.18203/2320-6012.ijrms20251300

strengths for Dr. R.B. Kalia’s nomination for the Innovative Researcher Award:

1. Pioneering Research in Minimally Invasive Techniques

Dr. Kalia has been at the forefront of researching and applying minimally invasive surgical methods in orthopaedics. His exploration of robotic-assisted procedures and new technologies in joint replacements and trauma surgery has contributed to making surgeries safer, quicker, and more effective, ultimately enhancing patient recovery times and reducing complications. This pioneering spirit in adopting cutting-edge techniques demonstrates his leadership in advancing orthopaedic care.

2. Multi-Disciplinary Approach to Musculoskeletal Disorders

Dr. Kalia’s research spans various subfields of orthopaedics, from joint replacements to spinal disorders and trauma surgery. He employs a multi-disciplinary approach, integrating biomechanics, material science, and advanced imaging techniques into his clinical and academic work. This allows for a holistic understanding of musculoskeletal conditions and results in more comprehensive and effective treatment strategies, ultimately improving patient outcomes.

3. Impact on Surgical Outcomes Through Biomaterials Innovation

One of Dr. Kalia’s notable contributions has been his work on developing new biomaterials for prosthetics. By exploring ways to improve the longevity of joint replacements and reduce complications in trauma surgeries, his research has provided new solutions that can significantly enhance surgical success and the long-term quality of life for patients. This work is particularly relevant given the increasing global demand for joint replacement surgeries due to aging populations.

4. In-depth Exploration of Psychological Aspects in Orthopaedic Rehabilitation

His groundbreaking research into the psychological impact of injuries, such as ACL depressive syndrome, reflects his holistic approach to patient care. Understanding that recovery isn’t just physical but psychological as well has shaped new rehabilitation programs that incorporate mental health support, offering a more comprehensive approach to patient recovery. This innovative research has the potential to reshape the rehabilitation landscape in orthopaedics, improving both short- and long-term patient outcomes.

5. Global Collaboration and Knowledge Sharing

Dr. Kalia’s active participation in global orthopaedic research networks—through platforms like ResearchGate, PubMed, and collaborations with international experts—has helped disseminate his work to a broader audience. His dedication to research education and mentorship, particularly for young surgeons and students, ensures that his innovative ideas and findings are passed on to the next generation of healthcare professionals. This kind of international collaboration and knowledge sharing underscores his impact not only in India but globally.