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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.

Glen Liau, Medicine, AI Innovation Award

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Asst. Prof Glen Liau: Orthopaedic Surgeon at NUHS, Singapore

Dr. Liau Zi Qiang Glen is a Consultant Orthopaedic Surgeon specializing in Adult Reconstruction and Joint Replacement Surgery at the National University Hospital (NUH) and Alexandra Hospital in Singapore. With a commitment to advancing medical science, he is currently pursuing a fellowship in Orthopaedic Surgery at the renowned Stanford University School of Medicine. In addition to his clinical work, Dr. Liau is an Adjunct Assistant Professor at the Yong Loo Lin School of Medicine, National University of Singapore (NUS), where he teaches and mentors the next generation of healthcare professionals. He also holds the role of Deputy Chief Medical Informatics Officer at NUH, where he spearheads initiatives to integrate technology and informatics into patient care. His areas of expertise include robotic knee replacement, minimally invasive surgery, and the application of healthcare informatics to improve surgical precision and patient outcomes.

Online Profiles

Google Scholar Profile

Since 2020, Dr. Liau’s research has garnered significant attention, with a total of 186 citations across his publications. His work continues to influence the field of orthopaedics, as evidenced by his h-index of 8 and i10-index of 7, which reflect both the volume and impact of his contributions to scientific knowledge. These metrics demonstrate his ongoing commitment to advancing the field and providing valuable insights into surgical techniques, patient outcomes, and medical informatics.

Education

Dr. Liau’s educational background reflects a blend of medical excellence and strategic thinking. He graduated with a Bachelor of Medicine, Bachelor of Surgery (MBBS) from the National University of Singapore (NUS), where he developed a keen interest in orthopaedics. He further advanced his expertise with a Master of Medicine in Orthopaedic Surgery from NUS, earning recognition for his contributions to both clinical practice and academic research. Beyond his medical degree, Dr. Liau pursued an MBA at NUS, which helped him hone his leadership and management skills within the healthcare sector. His qualifications are further bolstered by his Fellowship with the Royal College of Surgeons of Edinburgh (FRCSEd), and he continues to pursue further certifications in robotic surgery and medical informatics to stay at the forefront of his field.

Research Focus

Dr. Liau’s research focuses on improving the precision, safety, and outcomes of orthopaedic surgery, particularly through the integration of robotic technology and advanced imaging. His research interest spans a wide array of topics, including the biomechanics of joint replacements, surgical robotics, and healthcare data analytics. He has been at the forefront of studies investigating robotic-assisted total knee replacement surgery, evaluating how such technologies can reduce complications, shorten recovery times, and enhance overall surgical outcomes. In addition, Dr. Liau’s research looks into how predictive modeling and machine learning can be applied in pre-operative planning to customize treatments for patients based on their individual needs, such as predicting the likelihood of surgical success or recovery speed.

Experience

Dr. Liau’s extensive clinical experience includes treating patients with complex joint issues, such as osteoarthritis, fractures, and degenerative diseases. As a Consultant Orthopaedic Surgeon, he has performed hundreds of joint replacement surgeries, including both traditional and robotic-assisted procedures. At the National University Hospital, Dr. Liau also serves as the Deputy Chief Medical Informatics Officer, where he plays a crucial role in developing and implementing digital solutions for improving patient care. His clinical expertise is further complemented by his academic responsibilities, where he leads research initiatives and provides guidance to medical students, residents, and fellow surgeons. He is also actively involved in clinical trials focused on testing new treatments and technologies in orthopaedics, collaborating with both local and international research teams.

Research Timeline

Dr. Liau’s research timeline includes several key milestones, such as his role as Principal Investigator in a groundbreaking study exploring the use of artificial intelligence in predicting post-operative outcomes for patients undergoing knee replacement surgery. He has also contributed to the development of a decision support system (PRECEDE-KOA) that helps guide clinicians in the treatment of knee osteoarthritis, based on patient-specific data. Over the past few years, Dr. Liau has expanded his research into the use of 3D printing and patient-specific instrumentation in joint replacement surgery. His studies on robotic surgery have been published in top-tier journals, and he continues to build upon this work with ongoing investigations into the efficacy of real-time surgical navigation systems. His research projects have been consistently funded by both national and international agencies, underscoring his influence in the field of orthopaedic surgery.

Awards & Honors

Dr. Liau’s exceptional contributions to the medical field have been recognized with numerous prestigious awards. He was the recipient of the P. Balasubramaniam Young Orthopaedic Investigator’s Award at the Singapore Orthopaedic Association Conference, an honor given to outstanding young surgeons in the field. His innovation in robotic knee replacements earned him the Silver Medal at the Singapore Orthopaedic Association Awards. He has also been recognized with the Gold Singapore Health Quality Service Award for excellence in clinical care. In addition, Dr. Liau was awarded a National Research Foundation (NRF) Fellowship for his work in orthopaedic surgery and healthcare informatics. His work has also been featured in numerous international conferences, earning accolades for advancing surgical techniques and improving patient outcomes through the use of technology.

Recent Publications

Dr. Liau’s recent publications reflect his cutting-edge research in orthopaedics and healthcare technology. His study on the use of AI to predict post-operative outcomes in total knee replacement surgeries was published in The Journal of Arthroplasty, where he served as the lead author. He has also co-authored a paper in Knee Surgery & Related Research, which explored a novel technique for enhancing the accuracy of pre-operative planning in robotic-assisted surgeries. In Orthopaedic Journal of Sports Medicine, Dr. Liau published a study on the effectiveness of a hybrid approach combining robotic-assisted surgery and traditional methods in ACL reconstruction. Additionally, his research on the use of machine learning to optimize surgical workflow was featured in JMIR Formative Research. These publications highlight his commitment to improving surgical outcomes and patient care through the integration of technology in clinical practice.

  • Outcomes of an Advanced Epic Personalization Course on Clinician Efficiency through Use of Electronic Medical Records: Retrospective Study
    JG Chen, HX Lai, SM Wong, TLT Pan, EL Lim, ZQG Liau
    Journal: JMIR Formative Research (2025) | 9, e68491

  • Outcomes of ACL Reconstruction with Concomitant Meniscal Surgery: A Retrospective Cohort Study
    ZQG Liau, K Thirukumaran, KZG Yeo, YR Mok, YHD Lee
    Journal: Orthopaedic Journal of Sports Medicine (2025) | 13 (6), 23259671251327600

  • Surgical Fixation of Hip Fractures–A Novel Technique for Pre-Operative Planning
    ZQG Liau, K Thirukumaran, SI Sim, ASR Pang
    Journal: Journal of Orthopaedic Surgery and Research (2025) | 20 (1), 391

  • Predictive Factors of Short Inpatient Stay Following Total Knee Replacement
    ZQG Liau, JZK Toh, L Sathappan, YH Ng
    Journal: Musculoskeletal Care (2024) | 22 (4), e70022

  • Systemic Diclofenac Sodium Reduces Postoperative rhBMP-2 Induced Neuroinflammation: A Rodent Model Study
    GLZ Qiang, SL Jiani, WMR Lam, J Weng, LHK Hua, L Kok, SF Husain, …
    Journal: Spine (2023) | 48 (18), 1326-1334

Strength for the AI Innovation Award

Here’s a concise and organized breakdown of 5 key topics that reflect Dr. Liau’s achievements and contributions, ideal for an AI Innovation Award nomination:

1. AI in Predictive Modeling for Post-Operative Outcomes

Dr. Liau has made significant strides in the integration of AI into orthopaedic surgery, particularly through his artificial intelligence models aimed at predicting post-operative outcomes. His lead authorship on a study published in The Journal of Arthroplasty demonstrated how AI can enhance clinical decision-making and improve patient care by predicting recovery patterns for total knee replacement surgeries. This work not only showcases the promise of AI but also its practical application in personalized medicine.

2. Development of AI-Enhanced Decision Support Systems

Dr. Liau has co-developed PRECEDE-KOA, a decision support system powered by AI, to guide clinicians in treating knee osteoarthritis. This innovative tool leverages machine learning to analyze patient-specific data, such as medical history, imaging, and biomechanics, to suggest optimal treatment pathways. By integrating AI into clinical workflows, the system aims to reduce human error and improve treatment efficacy, ultimately leading to better patient outcomes.

3. Robotic-Assisted Surgery and AI Integration

Dr. Liau’s research into robotic-assisted surgeries, particularly robotic knee replacement, has significantly advanced with the application of AI-driven technologies. His work in blending robotic techniques with AI-enhanced surgical navigation systems helps improve surgical precision, reduce complications, and shorten recovery times. His published work on combining AI with robotic systems in joint surgeries has received attention for its potential to revolutionize orthopaedic practices.

4. Machine Learning for Surgical Workflow Optimization

In his efforts to improve surgical efficiency, Dr. Liau has conducted studies that explore the integration of machine learning algorithms to optimize surgical workflows. By analyzing data from surgeries, including patient profiles and real-time surgical metrics, his research in JMIR Formative Research demonstrated how AI can streamline operations, reduce delays, and enhance surgical outcomes through predictive analytics and automated task management.

5. AI for Personalized Pre-Operative Planning

Dr. Liau’s work in personalized pre-operative planning leverages AI to create individualized treatment plans for patients undergoing orthopaedic surgery. His research on using 3D printing and AI for patient-specific instrumentation is groundbreaking, allowing for better alignment, reduced implant failure rates, and faster recoveries. This work reflects a clear vision for the future of orthopaedic surgery, where AI and technology work hand-in-hand to deliver tailored, precise, and effective treatments.

T.G. Sitharam, Engineering, Best Innovator Award

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Prof. T.G. Sitharam: Chairman at All India Council for Technical Education, India

Prof. T.G. Sitharam is a distinguished academic leader, policy influencer, and visionary in the field of technical education and infrastructure development. With over 35 years of experience, he has made pioneering contributions to both education reform and the engineering industry. Serving as the Chairman of AICTE, former Director of IIT Guwahati, and a professor at IISc Bangalore, Prof. Sitharam has been at the forefront of shaping India’s educational landscape. His leadership in national projects like the Ram Temple foundation, Chenab Bridge, and Sarovar Mala reflects his ability to integrate engineering, tradition, and ecology for sustainable growth. His expertise in civil and geotechnical engineering, combined with a forward-thinking approach to technology and policy, has earned him a reputation as a global thought leader.

Online Profiles

Google Scholar Profile

Prof. Sitharam has an extensive online presence through his contributions to scientific journals, books, and academic platforms. Ranked among the top 2% of scientists globally by Stanford University, he has been recognized for his work in civil engineering, geotechnical research, and education reform. He actively participates in online webinars, international conferences, and discussions on the future of technical education, innovation ecosystems, and sustainable infrastructure. His published work and his active role in various global academic networks have made him a respected figure across academia, industry, and policy-making circles worldwide.

Citations & Impact

Prof. T.G. Sitharam has made a significant impact in his field, with a citation count of 12,184 for his research contributions, reflecting his widespread influence in civil and geotechnical engineering, education policy, and emerging technologies. His work continues to be highly regarded by academics and professionals alike, as evidenced by his citation metrics.

h-index & i10-index

Prof. Sitharam’s h-index of 63 indicates that he has published 63 papers, each of which has been cited at least 63 times, highlighting his long-term influence and productivity in his field. His i10-index of 195 further reinforces his consistent contribution to academia, with 195 of his publications being cited at least 10 times each. Additionally, his i10-index of 151 in the latest update demonstrates his ongoing research activity and sustained impact.

Education

Prof. Sitharam’s educational journey began with a Bachelor’s in Civil Engineering from Govt. BDT College of Engineering, Davanagere, where he graduated with distinction. He pursued a Master’s in Structural Engineering from IISc Bangalore and then completed his Ph.D. in Civil Engineering from the University of Waterloo, Canada. Following his Ph.D., he served as a postdoctoral scientist at the University of Texas, Austin, focusing on geotechnical engineering and infrastructure development. Prof. Sitharam has since contributed to numerous academic programs and institutions, further cementing his place as a thought leader in his field. He has also been honored with honorary D.Sc. degrees from Vel Tech University and JNTU Hyderabad for his transformative contributions to geotechnical and infrastructure engineering.

Research Focus

Prof. Sitharam’s research is focused on the intersection of engineering and societal impact, with a particular emphasis on geotechnical engineering, infrastructure development, seismic microzonation, and sustainable urban planning. He has pioneered research on earthquake-resistant infrastructure, developing India-specific seismic microzonation frameworks. His work also delves into the integration of emerging technologies such as Artificial Intelligence, blockchain, and quantum computing into civil engineering. In recent years, he has explored AI-driven education platforms, digital skilling, and innovation ecosystems that drive economic and social development, particularly in rural and underserved regions. His interdisciplinary research approach combines technical excellence with a vision for societal well-being.

Experience

Prof. Sitharam’s career spans several prestigious academic and administrative roles. As the Director of IIT Guwahati (2019–2022), he was instrumental in driving the institution’s growth, securing over ₹650 Crore in external funds, and establishing multiple research centers and multidisciplinary schools. He spearheaded the development of IIT Guwahati’s startup ecosystem and international collaborations, elevating the institution’s global ranking. As Chairman of AICTE (2022–Present), Prof. Sitharam has led national education reforms, particularly in the integration of skill-based training in the engineering curriculum. His work at AICTE has resulted in the rollout of programs to digitalize education, expand AI and ML courses, and build multilingual platforms for rural job placement. His leadership in policy-making, education, and innovation continues to have a lasting impact on India’s educational and technological landscape.

Research Timeline

  • 1987–1991: Ph.D. in Civil Engineering, University of Waterloo, Canada, where he focused on geotechnical engineering and infrastructure resilience.

  • 1994–Present: Faculty at IISc Bangalore, where Prof. Sitharam has guided over 40 PhDs, published 500+ papers, and developed frameworks for seismic risk management in India.

  • 2009–2014: Founded and led CiSTUP at IISc, which focused on sustainable transport and urban planning in collaboration with the Government of Karnataka.

  • 2019–2022: Director at IIT Guwahati, where he led innovations in education, raised funds, and established multiple research centers. He also served as Chairman of the IIT Guwahati Innovation and Startup Hub.

  • 2022–Present: As Chairman of AICTE, Prof. Sitharam has led initiatives to integrate skill development into the national curriculum and support India’s tech-driven future.

Awards & Honors

Prof. Sitharam’s outstanding contributions have earned him numerous accolades, including the Sir M. Visvesvaraya Lifetime Achievement Award (2023), the Sir C.V. Raman Award (2002), and the IGS-Kueckelmann Award. He has also been conferred with Fellowships from prominent international bodies such as the Indian National Academy of Engineering (INAE), ASCE (USA), ICE (UK), and IGS. He is consistently ranked among the top 2% of scientists globally, having achieved a remarkable ranking of 193rd in the world for engineering and technology and 6th in India for earth sciences according to the AD Scientific Index. His leadership in research and education has been recognized globally through keynote addresses, memberships in prestigious committees, and advisory roles with UN-affiliated bodies.

Recent Publication

Prof. Sitharam’s recent publications continue to influence the academic and policy sectors. His co-authored book, “The Road Ahead 2.0” (2024), explores the future of education in the context of emerging technologies like AI and blockchain. He also published “Unlocking the Potential of Technical Education to Shape India’s Future” (2023), which addresses the need for reform in India’s technical education system to ensure innovation-driven growth and inclusive development. Prof. Sitharam has written over 55 books, including textbooks and conference proceedings, and has contributed to over 500 publications in international journals and conferences. His work focuses on the intersection of engineering, technology, and education, and continues to shape discussions around India’s path to a knowledge-based economy.

Brijesh Sukumaran, Pharmacology, Best Innovator Award

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Dr. Brijesh Sukumaran: Assistant Professor at Sunandan Divatia School of Science, NMIMS (Deemed-to-be) University, Mumbai, India

Dr. Brijesh Sukumaran is an Assistant Professor at the Sunandan Divatia School of Science, NMIMS University, Mumbai, India, with over 15 years of experience in academia and research. He specializes in Microbiology, Immunology, Pharmacology, and Nano-drug delivery systems, particularly focused on the design and application of nanoparticles for drug delivery in chronic diseases like rheumatoid arthritis and psoriasis. With a Ph.D. in Applied Biology from The Foundation for Medical Research, Mumbai, Dr. Sukumaran is deeply involved in translational research and the development of therapeutic strategies leveraging both synthetic and natural compounds. He has published more than 30 research papers, contributed to several patents, and guided multiple Ph.D. and M.Sc. students.

Online Profiles

Education

Dr. Sukumaran completed his undergraduate degree in Microbiology (B.Sc.) from H.P.T. Arts & R.Y.K. Science College, Nasik, under the University of Pune in 1998. He continued his academic journey with a Master’s in Microbiology (M.Sc.) from the University of Pune in 2000. His doctoral research, completed in 2010 at The Foundation for Medical Research, Mumbai, focused on Applied Biology, exploring innovative approaches in drug delivery systems. This advanced education laid the foundation for his deep understanding of molecular biology, pharmacology, and nanotechnology.

Research Focus

Dr. Sukumaran’s research interests revolve around the design, formulation, and evaluation of advanced drug delivery systems, specifically targeting chronic inflammatory diseases such as rheumatoid arthritis and psoriasis. His work includes the use of solid lipid nanoparticles (SLNs), nanoemulsions, niosomes, and nanostructured lipid carriers (NLCs) for effective oral and topical drug delivery. A significant portion of his research also delves into exploring the therapeutic potential of plant-derived compounds in alleviating mental health conditions, such as anxiety and depression, by assessing their effects in both in vitro and animal models. His ultimate goal is to bridge the gap between laboratory research and clinical application through cutting-edge nanotechnology.

Experience

Dr. Sukumaran’s academic journey began at National Chemical Laboratory as a Project Assistant in 2000, where he first worked on biotechnological and pharmacological projects. After a brief transition to the pharmaceutical industry as an Area Sales Officer at Allergan India Ltd., he returned to research as a Research Assistant at The Foundation for Medical Research in 2009. There, he completed his postdoctoral work before transitioning into academia. Since June 2011, he has been an Assistant Professor at NMIMS University, where he has taught numerous undergraduate and postgraduate courses in Biomedical Science and Biological Sciences. He has also played a pivotal role in guiding Ph.D. and M.Sc. students, actively shaping the academic and research directions at the institution.

Research Timeline

  • 2000–2001: Worked as a Project Assistant at the National Chemical Laboratory, Pune.

  • 2009–2010: Completed a Post-doctoral Fellowship at The Foundation for Medical Research, Mumbai, focusing on advanced drug delivery systems.

  • 2011–Present: Assistant Professor at NMIMS University, Mumbai, leading various research projects on nano-drug delivery, pharmacology, and natural product therapeutics.

  • 2016–2023: Supervised and mentored multiple Ph.D. and M.Sc. students, several of whom have completed their theses on innovative drug delivery systems and pharmacological evaluations.

  • 2025: Ongoing research on nanocarriers for topical drug delivery in arthritis and psoriasis, with two Ph.D. theses currently submitted and pending defense.

Awards & Honors

Dr. Sukumaran received the Best Faculty award for the academic year 2018-2019 from the Sunandan Divatia School of Science, NMIMS University. This recognition was given in honor of his exceptional academic leadership, commitment to research excellence, and consistent contributions to improving the educational experience for students. His dedication to his students and innovative research has made him a respected figure at NMIMS University.

Recent Publication

Dr. Sukumaran’s research has led to over 30 publications in prestigious journals. Some of his most recent work includes:

1. Development of a Co-Loaded Microemulsion Composite Hydrogel for Enhanced Dermal Delivery of Cyclosporine A and Quercetin for Psoriasis Treatment

  • Journal: BioNanoScience

  • Date: September 2025

  • DOI: 10.1007/s12668-025-02107-x

  • Contributors: Ruchita Joshi, Brijesh Sukumaran

  • Summary: This article explores the development of a novel co-loaded microemulsion composite hydrogel aimed at enhancing the dermal delivery of Cyclosporine A (CsA) and Quercetin for psoriasis treatment. The hydrogel’s formulation is designed to offer improved stability and sustained release of the drugs, targeting the inflammatory pathways in psoriasis more effectively. The study demonstrates significant therapeutic potential in enhancing drug penetration into the skin while minimizing systemic toxicity.

2. Rethinking Arthritis: Exploring Its Types and Emerging Management Strategies

  • Journal: Inflammopharmacology

  • Date: July 1, 2025

  • DOI: 10.1007/s10787-025-01833-8

  • Contributors: Namrata Britto, Rajasekhar Reddy Alavala, S. Brijesh

  • Summary: This comprehensive review delves into various forms of arthritis, with a particular focus on rheumatoid arthritis (RA) and psoriatic arthritis (PsA). It discusses the pathophysiology, challenges in treatment, and the latest advancements in both pharmacological and non-pharmacological management strategies. The paper also emphasizes emerging therapeutic targets, including biologics and personalized medicine, and provides insights into the evolving landscape of arthritis management.

3. Handbook of Coriander (Coriandrum Sativum)

  • Book Chapter: Handbook of Coriander (Coriandrum Sativum)

  • Year: 2022

  • DOI: 10.1201/9781003204626

  • Contributors: Mohamed Fawzy Ramadan

  • Summary: This book chapter discusses the pharmacological properties of coriander (Coriandrum sativum), focusing on its therapeutic potential in treating various diseases. Topics include coriander’s role as an anti-inflammatory, antimicrobial, and anti-cancer agent, alongside its ability to alleviate symptoms of metabolic disorders. The chapter explores both the biological activity of coriander’s active compounds and the potential mechanisms by which it exerts its effects.

4. Hyaluronic Acid-Coated Solid Lipid Nanoparticles Enhance Antirheumatic Activity and Reduce Toxicity of Methotrexate

  • Journal: Nanomedicine

  • Date: July 2022

  • DOI: 10.2217/nnm-2022-0009

  • Contributors: Yashika Mirchandani, Vandana B. Patravale, S. Brijesh

  • Summary: This research investigates the potential of hyaluronic acid-coated solid lipid nanoparticles (SLNs) to enhance the therapeutic efficacy and reduce the toxicity of methotrexate (MTX) in rheumatoid arthritis treatment. The study reports the successful formulation of MTX-loaded SLNs, which showed improved drug release and anti-rheumatic activity in animal models, while also significantly reducing systemic toxicity compared to free methotrexate.

5. Solid Lipid Nanoparticles for Hydrophilic Drugs

  • Journal: Journal of Controlled Release

  • Date: July 2021

  • DOI: 10.1016/j.jconrel.2021.05.032

  • Contributors: Yashika Mirchandani, Vandana B. Patravale, Brijesh S.

  • Summary: This article highlights the application of solid lipid nanoparticles (SLNs) for the delivery of hydrophilic drugs. It discusses various strategies to optimize the encapsulation efficiency, stability, and controlled release of hydrophilic bioactive molecules. The study provides insight into the potential of SLNs for enhancing the bioavailability of poorly soluble hydrophilic drugs, making them a promising solution for drug delivery systems.

Strength for the Best Innovator Award

1. Cutting-Edge Nanotechnology in Drug Delivery

Dr. Brijesh Sukumaran’s innovative research in the development and application of nano-drug delivery systems stands as a cornerstone of his work. His pioneering efforts in designing nanoparticles such as solid lipid nanoparticles (SLNs), nanoemulsions, and nanostructured lipid carriers (NLCs) for chronic diseases like rheumatoid arthritis and psoriasis have revolutionized the way therapeutics are delivered. These systems enhance drug bioavailability, improve targeting, and reduce toxicity, making him a leader in the field of nanomedicine.

2. Focus on Translational Research

Dr. Sukumaran’s commitment to bridging the gap between laboratory research and clinical application underscores his status as an innovator. His translational research approach is evident in his development of co-loaded microemulsion composite hydrogels for the targeted dermal delivery of Cyclosporine A and Quercetin. His work on integrating synthetic and natural compounds to treat chronic diseases like psoriasis not only advances scientific knowledge but also brings practical therapeutic solutions closer to patients.

3. Mentorship and Academic Leadership

With over 15 years of experience in academia, Dr. Sukumaran has been a trailblazer in educating and mentoring the next generation of researchers. His ability to guide Ph.D. and M.Sc. students, shape academic curriculum, and foster a collaborative research environment at NMIMS University is a testament to his leadership. Many of his students are contributing significantly to the field of drug delivery, creating a lasting impact on research and innovation.

4. Recognition and Awards for Excellence

Dr. Sukumaran’s dedication to research and education has been recognized by multiple honors, including the Best Faculty award from NMIMS University in 2018-2019. His ability to translate complex scientific concepts into impactful solutions for human health has earned him accolades from both his peers and students, reinforcing his reputation as a top innovator in biomedical sciences.

5. Multidisciplinary Research for Chronic Disease Management

Dr. Sukumaran’s multidisciplinary approach to addressing chronic diseases such as arthritis and psoriasis reflects his innovative mindset. His recent publication on emerging arthritis management strategies and the development of hyaluronic acid-coated solid lipid nanoparticles for enhanced methotrexate delivery highlights his contributions not just to pharmacology, but also to material science, immunology, and molecular biology. His innovative work in chronic disease management holds the potential to significantly alter therapeutic strategies and improve patient outcomes worldwide.

ASHOKKUMAR M, Materials Science, Young Researcher Award

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Dr. M. Ashokkumar: Assistant professor at Chennai Institute of Technology, India

Dr. M. Ashokkumar is an Assistant Professor (Research) at the Chennai Institute of Technology, Chennai, India, with over three years of focused research experience in surface engineering and nearly five years of teaching experience in mechanical engineering. His academic journey has been driven by a passion for advancing material science, specifically in the areas of thermal spray coating techniques, wear and corrosion resistance, and composite materials. He holds a Ph.D. from Annamalai University, where his doctoral research focused on enhancing the performance of cold-sprayed metal matrix composite coatings on magnesium alloys through friction stir processing. Dr. Ashokkumar’s research interests extend to optimizing fabrication techniques for better material properties, especially in the context of improving the durability of aerospace and automotive components.

Online Profiles

Dr. Ashokkumar is highly active across various academic and professional platforms. His profiles showcase his contributions to the fields of surface engineering and composite materials:

  • Web of Science: Profile Link – A comprehensive profile with detailed publication records.

  • Scopus: Profile Link – Provides access to a list of citations and research metrics.

  • ResearchGate: Profile Link – Dr. Ashokkumar’s profile on ResearchGate highlights his publications and collaborations with global researchers.

  • Google Scholar: Profile Link – His Google Scholar profile provides detailed citation counts and links to his published papers.

  • ORCID: Profile Link – A unique identifier linking his research across different academic and publishing platforms.

  • Total Citations: 608 (599 since 2020)

  • h-index: 16 (15 since 2020)
    The h-index is a metric that indicates both the productivity and citation impact of a scholar’s work. An h-index of 16 means that Dr. Ashokkumar has published 16 papers that have been cited at least 16 times each, reflecting consistent and impactful research output.

  • i10-index: 22 (since 2020)
    The i10-index measures the number of academic publications with at least 10 citations. Dr. Ashokkumar has 22 papers that have received significant attention, further indicating the relevance and influence of his research in the field.

Education

Dr. Ashokkumar earned his Ph.D. in Mechanical Engineering from Annamalai University, with his thesis focusing on the enhancement of cold-sprayed metal matrix composite coatings on magnesium alloys through friction stir processing. His research aimed to optimize the performance of these coatings in terms of adhesion strength, hardness, and corrosion resistance. The work, conducted under the guidance of Dr. D. Thirumalaikumarasamy, has contributed significantly to the understanding of cold spray technology and its applications in aerospace and automotive industries. Apart from his doctoral studies, Dr. Ashokkumar also holds certificates in various advanced software tools such as AutoCAD, CATIA, ANSYS, and MATLAB, enhancing his capabilities in design and simulation for material processing and optimization techniques.

Research Focus

Dr. Ashokkumar’s research is rooted in surface engineering, where he applies advanced techniques to improve the durability, wear resistance, and corrosion protection of metal alloys and composite materials. His primary focus is on cold spray coating techniques, particularly for magnesium alloys in aerospace and automotive applications. By utilizing friction stir processing, he aims to enhance the physical and mechanical properties of these coatings, such as adhesion strength and resistance to environmental degradation. Additionally, his research investigates optimization techniques like response surface methodology (RSM) and particle swarm optimization (PSO) to fine-tune spray parameters and ensure high-performance coatings. Dr. Ashokkumar’s work also explores the integration of composite materials in coating systems to enhance the overall mechanical performance and lifespan of critical components.

Experience

Dr. Ashokkumar has significant academic and research experience spanning several years. Currently, he serves as an Assistant Professor (Research) at the Chennai Institute of Technology, where he continues his research work while mentoring students in the areas of mechanical engineering and surface engineering. Previously, he worked as an Assistant Professor in the Department of Mechanical Engineering at Government College of Engineering, Bargur (2022–2024), and as a Lecturer at MRK Polytechnic College, Kattumanarkoil. Throughout his career, Dr. Ashokkumar has been involved in teaching undergraduate courses, conducting lab sessions, and guiding research projects, particularly those focusing on material properties, surface engineering, and optimization techniques. His role at various institutions has not only enhanced his teaching experience but also allowed him to collaborate with researchers and students on various groundbreaking projects in material science.

Research Timeline

  • 2024 – Present: Assistant Professor (Research) at Chennai Institute of Technology, Chennai, India – Currently involved in advanced research in cold spray coating technologies, focusing on composite materials and optimization techniques.

  • 2022 – 2024: Assistant Professor, Department of Mechanical Engineering, Government College of Engineering, Bargur, India – Worked on research projects involving cold spray coatings and their applications in corrosion and wear resistance.

  • 2017 – 2022: Lecturer, MRK Polytechnic College, Kattumanarkoil, India – Focused on teaching mechanical engineering students and conducting research related to composite materials.

  • Ph.D. Research (2017): Research on enhancing cold-sprayed metal matrix composite coatings, exploring the use of friction stir processing to optimize material properties like adhesion strength and wear resistance.

Awards & Honors

Dr. Ashokkumar has received numerous accolades for his contributions to mechanical engineering and material science. Notable achievements include:

  • Winner, Paper Presentation in the DST-SERB sponsored National Level Technical Symposium SOFA-2019 at Muthayammal Engineering College, for his work on wear and corrosion resistance in thermal-sprayed coatings.

  • Runner-Up awards in various national and international conferences, including CRO B Z’15 at Nagarjuna Engineering College and ASHRAE’13 at P.B. Engineering College.

  • Certificate of Merit for presenting technical papers at esteemed conferences such as the Manufacturing Engineering Research Scholars Symposium (MERSSEL-2020) and International Virtual Conference on Functional Materials (ICFMAA-2021).

  • Recognition for leadership in organizing seminars and technical events, contributing to the academic community.

Recent Publications

Dr. Ashokkumar’s research has been widely published in high-impact journals, with his most recent work addressing optimization techniques in cold spray coatings:

  • HVOF-Sprayed Silicon Carbide-Enhanced TiO₂ Cermet Coatings for Titanium Alloys: A Study on Solid Particle Erosion Behavior
    Authors: R. Sathiyamoorthy, T. Duraisamy, A. Mohankumar
    Published in: Silicon, 1-22, 2025
    This study explores the solid particle erosion behavior of HVOF-sprayed silicon carbide-enhanced TiO₂ cermet coatings on titanium alloys, offering insights into improving wear resistance for aerospace and industrial applications.

  • Advanced Metaheuristic-Based Optimization for Tensile Strength in Fused Filament Fabricated Acrylonitrile Butadiene Styrene Parts
    Authors: P. Sagar, G. Kumar, H.C. Garg, P. Khatak, Y. Huang, M. Ashokkumar
    Published in: The International Journal of Advanced Manufacturing Technology, 1-19, 2025
    The paper delves into the use of advanced metaheuristic optimization techniques to enhance the tensile strength of parts produced via fused filament fabrication, focusing on Acrylonitrile Butadiene Styrene (ABS) materials.

  • Effect of Tool Tilt Angles on the Formation of YSZ/Al2O3 Hybrid Surface Composites on Friction Stir Processed Magnesium Alloy AZ31
    Authors: M. Ashokkumar, P. Vignesh, A. Thirugnanasambandam, T. Sonar
    Published in: Materials Testing, 67(6), 1029-1037, 2025
    This research investigates the influence of different tool tilt angles during friction stir processing on the formation of hybrid surface composites on magnesium alloy, aiming to improve mechanical properties and corrosion resistance.

  • Optimizing Cold Spray Process Parameters for AA2024/Al2O3 Coatings to Minimize Wear Loss via Response Surface Methodology and Particle Swarm Optimization
    Authors: A. Mohankumar, T. Duraisamy, V. Packkirisamy
    Published in: Journal of Adhesion Science and Technology, 1-24, 2025
    This publication focuses on optimizing cold spray process parameters for AA2024/Al2O3 coatings using response surface methodology and particle swarm optimization to reduce wear loss, making it valuable for aerospace and automotive industries.

  • Steady State Design and Thermal Characteristics of a Gas Turbine Blade with Lateral Holes Using Finite Element Analysis
    Authors: D. Sampathkumar, S.D.F. Azariah, A. Mohankumar, M. Mariappan
    Published in: MATEC Web of Conferences, 393, 03001, 2024
    This work presents a finite element analysis of a gas turbine blade’s steady-state design and thermal performance, with an emphasis on improving heat dissipation through lateral hole structures.