Tag: Young Innovators Award

Sanjoy Kumar Bordolui, Agriculture, Young Innovators Award

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Dr. Sanjoy Kumar Bordolui: Assistant Professor (Stage-II) at Bidhan Chandra Krishi Viswavidyalaya, India

Title / Designation: Dr.

Name: Sanjoy Kumar Bordolui

Current Role / Designation: Assistant Professor (Stage-II)

Organization / Institution Details: Bidhan Chandra Krishi Viswavidyalaya

Country: India

Subject Track: Agriculture

Key Areas of Expertise: Seed Science and Technology

Award Category: Young Innovators Award

Article Title: Paclobutrazol-induced modulation of growth, anatomy, and antioxidant activity in groundnut under contrasting water regimes

Article Publication Link: https://link.springer.com/article/10.1007/s12892-025-00339-7

Dr. Sanjoy Kumar Bordolui (b. 05.07.1978) is an Assistant Professor (Stage-II) at the Department of Seed Science and Technology, Faculty of Agriculture, Bidhan Chandra Krishi Viswavidyalaya (BCKV), Mohanpur, West Bengal. With over two decades of professional experience in agriculture, he has contributed significantly to seed science, plant breeding, and germplasm conservation. He actively works to bridge academic research with practical agricultural solutions, helping farmers enhance crop productivity, seed quality, and sustainable farming practices.

Online Profile

Google Scholar Profile

Dr. Sanjoy Kumar Bordolui maintains an active online presence through ORCID, Google Scholar, ResearchGate, and LinkedIn, reflecting his extensive research contributions in seed science and technology. His Google Scholar profile records a total of 402 citations, with 349 citations since 2021, an h-index of 11 (10 since 2021), and an i10-index of 19 (15 since 2021), highlighting both the impact and continued relevance of his work. These platforms provide a comprehensive overview of his publications, collaborations, and scholarly influence in areas such as germplasm conservation, seed invigoration, hybridization, and seed storage and processing.

Education

He completed his formal education in agriculture at Bidhan Chandra Krishi Viswavidyalaya, Mohanpur, achieving top distinctions at every stage. He earned his B.Sc. (Ag.) Hons., M.Sc. (Ag.) in Seed Science and Technology, and Ph.D. in Seed Science and Technology, all in first-class grades. He qualified the NET in Seed Technology (ASRB, 2005), which reflects his foundational expertise. He has enhanced his skills through multiple national and international training programs covering modern seed technology, biotechnology, crop production, climate-resilient farming, and urban agriculture.

Research Focus

Dr. Bordolui’s research integrates classical plant breeding, biotechnology, and applied seed science. His core focus areas include germplasm conservation, seed invigoration techniques, hybridization, storage, and seed processing. He emphasizes improving seed quality, longevity, and seedling vigor under diverse environmental conditions. His work also explores the use of plant growth regulators, bio-stimulants, osmopriming, and nutri-priming to enhance crop productivity and ensure sustainable agriculture.

Experience

Since joining BCKV in 2014, Dr. Bordolui has held diverse academic, research, and administrative responsibilities. He has guided numerous Ph.D. and M.Sc. students, acted as an external examiner and evaluator across multiple universities, and participated in curriculum development. Beyond academics, he has contributed to sports and student welfare committees, organized athletic meets, served as Provost of student hostels, and played a pivotal role in faculty development and capacity-building programs. He also serves as editor and reviewer for multiple international and national journals in seed technology and agriculture.

Research Timeline & Activities

Over the years, Dr. Bordolui has conducted extensive research in participatory rice breeding, seed priming, seed quality enhancement, and the application of biostimulants for crop growth and stress management. He has been principal investigator or co-investigator in multiple funded projects by ICAR, BASF, ICARDA, and private organizations. He has organized international conferences, national seminars, and training programs, actively promoting knowledge exchange in seed science and sustainable agriculture. His research combines applied field experiments with laboratory investigations to address real-world agricultural challenges.

Awards & Honors

Dr. Bordolui has received multiple prestigious awards recognizing his contributions to agriculture and education. These include the Best Academician Award (2025), Fellow of CWSS (2021), Vigyan Ratna Samman (2024, UK), India Prime 100 Professors Award (2021), and CWSS Young Scientist Award (2016). He has also been recognized for innovative research, dedicated teaching, and high-impact publications. Additionally, he is a fellow of several scientific societies, including the Society of Tropical Agriculture, Society of Agricultural Research and Social Development, and the Society of Innovative Educationalist & Scientific Research Professionals.

Top Noted Publication

One of his highly cited and recent publications is: Samanta S. and Bordolui S. K. (2026). “Paclobutrazol-induced modulation of growth, anatomy, and antioxidant activity in groundnut under contrasting water regimes.” Journal of Crop Science and Biotechnology. DOI. This work highlights innovative approaches in plant physiology, demonstrating how growth regulators can improve crop resilience under varying environmental conditions. His research on seed priming, bio-stimulants, and germination optimization has also been influential in advancing seed technology practices.

  • Impact of Seed Priming with Ag-Nanoparticle and GA3 on Germination and Vigour in Green gram

    • Authors: A. Chakraborty, S.K. Bordolui

    • Journal: International Journal of Current Microbiology and Applied Sciences, 10(3)

    • Year: 2021

    • Citations: 25

  • Growth, yield attributes and yield of different cultivars of groundnut as affected by potassium application

    • Authors: P. Chandra, R.C. Samui, S.K. Bordolui

    • Journal: Journal of Crop and Weed, 2(1), 37-39

    • Year: 2006

    • Citations: 25

  • Inducement of Seed Priming with Potassium Nitrate on Quality Performance of Chickpea (Cicer arietinum L.)

    • Authors: A. Choudhury, S.K. Bordolui

    • Journal: Biological Forum – An International Journal, 14(4), 779-783

    • Year: 2022

    • Citations: 20

  • Effect of Seed Priming as Pre-Treatment Factors on Germination and Seedling Vigour of Tomato

    • Authors: J. Ray, S.K. Bordolui

    • Journal: International Journal of Plant & Soil Science, 34(20), 302-311

    • Year: 2022

    • Citations: 20

  • Seed Quality Deterioration of Tomato during Storage: Effect of Storing Containers and Condition

    • Authors: J. Ray, S.K. Bordolui

    • Journal: Biological Forum, 14(2), 327-334

    • Year: 2022

    • Citations: 20

 

Article Details

Title: Paclobutrazol-induced modulation of growth, anatomy, and antioxidant activity in groundnut under contrasting water regimes
Authors: Srijan Samanta & Sanjoy Kumar Bordolui
Journal: Journal of Crop Science and Biotechnology
Publication Date: 16 January 2026
Study Focus: Evaluated the effects of paclobutrazol (PBZ), a triazole-based growth regulator, on the drought tolerance of groundnut (Arachis hypogaea L.) cultivar TAG 24 under pot culture with varying water regimes. PBZ concentrations tested were 6, 10, 14, and 18 ppm, alongside an untreated control.

Novelty

The study introduced a comprehensive integration of morphological, anatomical, and biochemical analyses to assess PBZ-induced drought mitigation in groundnut. Unlike previous studies that focused on isolated physiological traits, this research combined root-to-shoot ratio, vascular anatomy, pigment retention, antioxidant enzyme activities, and osmolyte accumulation, providing a holistic understanding of crop adaptation to water stress. The use of specific PBZ concentrations (10–14 ppm) to optimize both growth and stress resilience is a novel approach for practical crop management.

Research Methodology

The experiment was conducted under controlled pot-culture conditions with contrasting water regimes. Plants were treated with four concentrations of PBZ (6, 10, 14, 18 ppm) plus an untreated control. Measurements included growth parameters, root-to-shoot ratio, foliar area, cortical thickness, xylem vessel width, pigment levels, antioxidant enzyme activity (SOD, POD), ROS scavenging potential (ABTS, FRAP), proline accumulation, and malondialdehyde (MDA) content. The study applied a multi-trait assessment framework to determine stress adaptation efficiency.

Key Findings

  • Moderate PBZ application (10–14 ppm) enhanced root-to-shoot ratio and reduced foliar area, promoting better water-use efficiency.

  • Cellular structure improvements, including thicker cortex and wider xylem vessels, indicated enhanced vascular conductance.

  • Photosynthetic pigment levels were maintained under water stress, supporting sustained growth.

  • Antioxidant enzyme activity and ROS scavenging potential increased, while MDA levels decreased, showing reduced oxidative damage.

  • Proline accumulation improved osmotic regulation, reflecting adaptive stress responses.

Impact

This research provides actionable insights for drought management in groundnut cultivation, demonstrating how PBZ can be strategically used to improve growth, physiology, and stress resilience. It bridges basic plant science and practical agronomy, offering farmers and researchers a scalable approach to mitigate water scarcity effects. The findings have implications for crop management, seedling quality, and yield improvement under climate stress conditions.

Future Directions

The study opens avenues for further research on field-scale applications of PBZ, combination with other growth regulators or bio-stimulants, and exploration in other legume crops. Long-term trials could evaluate yield enhancement, cost-effectiveness, and environmental safety of PBZ use in drought-prone regions.

Strengths of Dr. Sanjoy Kumar Bordolui for a “Young Innovators Award”:

1. Innovative Research in Seed Technology

Dr. Bordolui has developed novel approaches in seed priming, bio-stimulants, and growth regulators to improve germination, seed vigor, and crop resilience under stress. His 2026 work on paclobutrazol demonstrates integrated morphological, anatomical, and biochemical strategies to mitigate drought, reflecting cutting-edge research that bridges basic science and practical agriculture.

2. Strong Academic and Mentorship Record

With over two decades of experience, he has guided numerous Ph.D. and M.Sc. students, contributed to curriculum development, and served as an external examiner. His mentorship emphasizes innovation in experimental design, seed quality assessment, and sustainable agricultural practices, fostering the next generation of scientists.

3. High-Impact Publications and Research Visibility

Dr. Bordolui’s work is recognized internationally, with over 400 citations, an h-index of 11, and multiple influential publications in high-quality journals. Studies on green gram, chickpea, tomato, and groundnut reflect a focus on practical, high-impact agricultural solutions that address real-world challenges.

4. Successful Project Leadership and Collaboration

He has served as principal or co-investigator on projects funded by ICAR, BASF, ICARDA, and private organizations. He has organized national and international conferences, demonstrating leadership in research planning, collaborative problem-solving, and knowledge dissemination.

5. Contribution to Sustainable Agriculture and Societal Impact

Dr. Bordolui’s work improves seed quality, crop productivity, and stress tolerance, directly benefiting farmers and promoting climate-resilient agriculture. His efforts translate scientific innovations into actionable solutions for food security, highlighting the societal impact of his research.

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.

SenthilPandian M, Engineering, Young Innovators Award

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Doctorate SenthilPandian M: Assistant Professor (Sr) at Vellore Institute of Technology Chennai, India

Dr. M. Senthil Pandian is a seasoned structural engineer and academician with over 16 years of professional experience, including 12 years in teaching and research and 4 years in structural design consultancy. Currently an Assistant Professor (Senior Grade II) at Vellore Institute of Technology (VIT), Chennai, he has made significant contributions to the fields of structural analysis, composite structures, and construction technology. His work is characterized by a strong interdisciplinary approach, integrating traditional civil engineering practices with modern computational methods, smart materials, and electronics in construction applications. Known for his commitment to both academic excellence and practical innovation, Dr. Senthil Pandian has mentored numerous postgraduate students and has actively contributed to the academic and infrastructural growth of VIT.

Online Profiles

Dr. Senthil Pandian maintains active academic profiles across key research databases and platforms. His ORCID 0000-0003-0261-8616 captures a unified record of his scholarly output. His Scopus Author ID 57205443018 tracks his contributions to peer-reviewed journals indexed in Scopus. On Google Scholar (Scholar Profile), his citations reflect the impact of his work across civil engineering, materials science, and interdisciplinary research fields. These platforms collectively showcase his expertise in structural engineering, smart infrastructure systems, and construction material innovations.

Education

Dr. Senthil Pandian holds a Ph.D. in Structural Engineering from Vellore Institute of Technology (VIT), Chennai, awarded in 2020 for his research on cold-formed steel connections and moment-resisting joints. He completed his M.E. in Structural Engineering from VLB Janakiammal College of Engineering & Technology, Coimbatore, in 2010, where he developed a strong foundation in advanced concrete and steel design. His academic journey began with a B.E. in Civil and Structural Engineering from Annamalai University in 2006. His solid academic background has played a pivotal role in shaping his research and teaching philosophy, focused on practical applications and innovative design solutions.

Research Focus

Dr. Senthil Pandian’s research encompasses a wide range of interests within structural engineering, with a strong emphasis on composite and cold-formed steel structures, finite element analysis, and seismic performance of irregular buildings. He has expanded his focus to deep learning applications in structural diagnostics, and the use of stretchable electronics and reconfigurable antennas in construction monitoring. His interdisciplinary work integrates civil engineering with electronics, particularly in RF antenna design for formwork and infrastructure health monitoring. His goal is to bridge emerging technologies with traditional engineering to develop intelligent, sustainable, and adaptive structures.

Experience

With a blend of academic and industry experience, Dr. Senthil Pandian brings a holistic perspective to civil engineering. He joined VIT Chennai in 2012 and has since played key academic roles including IQAC Coordinator, School Lab In-Charge, and postgraduate research supervisor. Before entering academia, he worked with Consulting Engineering Services (I) Pvt. Ltd., New Delhi, where he was involved in high-profile projects such as the Commonwealth Games stadiums, Panipat Elevated Corridor, and IISER Campus Thiruvananthapuram. His responsibilities spanned structural design (steel trusses and RCC), retrofitting assessments, tender documentation, and feasibility studies for national and international transit systems, including the Nairobi MRTS and Chennai-Trivandrum High-Speed Rail project.

Research Timeline

Dr. Senthil Pandian’s research journey began during his postgraduate studies and intensified with his doctoral work on extended end-plate connections in cold-formed steel. From 2014 onward, he has guided approximately 50 M.Tech and 30 B.Tech projects, and currently supervises 4 Ph.D. scholars working on themes such as smart structural systems, robotic inspection devices, and machine learning applications in civil engineering. His publications span journals indexed in Scopus, SCI, and IEEE, and reflect a steady evolution from core structural mechanics to emerging technologies. Through collaboration with interdisciplinary teams, he continues to expand his research to align with the latest developments in construction innovation.

Awards & Honors

Throughout his career, Dr. Senthil Pandian has been recognized for his dedication to institutional development and research contributions. He is a Lifetime Member of the Institute for Steel Development and Growth (INSDAG) and has held several leadership roles at VIT including Concrete & Structural Lab In-Charge, Civitek Club Coordinator, and TechnoVIT Event Coordinator. He has received multiple appreciations internally for establishing advanced laboratory facilities, integrating technology into civil education, and coordinating industry-academic initiatives. His role as IQAC Coordinator further highlights his commitment to academic quality and strategic institutional growth.

Top-Noted Publication

One of Dr. Senthil Pandian’s most distinguished works is the 2023 article in Soft Computing, titled “An intelligent prediction system for predicting the types of joints on extended endplate long bolted joint using fuzzy rules.” This paper highlights his pioneering effort in applying fuzzy logic and AI to structural joint prediction, improving the accuracy and efficiency of connection classification in steel structures. The research not only addresses practical design challenges but also opens new pathways for integrating computational intelligence in civil engineering design practices. This publication exemplifies his interdisciplinary approach and has received attention for its novelty and relevance in smart structural systems.

  • Enhancing Impact Resistance of Concrete Slabs
    Advances in Science and Technology Research Journal, Aug 2025
    DOI: 10.12913/22998624/204679
    Contributors: Hemanth Kumar Anbu, Udhayanithi P., Karthikeyan Kothandapani, M. Senthilpandian

  • Trash to Treasure: A Review on Integrating Nanomaterial and Industrial Waste for Sustainable Electromagnetic Interference Shielding Composites
    Advances in Science and Technology Research Journal, Apr 2025
    DOI: 10.12913/22998624/200108
    Contributors: G. Loganathan, M. Senthilpandian

  • Utilisation of Solid Waste Polyurethane Foam as Coarse Aggregate in Concrete: An Experimental Study with Ecological and Cost Assessment
    Journal of Material Cycles and Waste Management, Jan 2025
    DOI: 10.1007/s10163-024-02106-2
    Contributors: R. Rooban Kumar, M. Senthilpandian

  • A Review of Utilization of Waste Polyurethane Foam as Lightweight Aggregate in Concrete
    Heliyon, Dec 2024
    DOI: 10.1016/j.heliyon.2024.e40479
    Contributors: R. Roobankumar, M. Senthilpandian

Strength for the Young Innovators Award – Highlighted Topics

  • Synergistic Effects of Graphene Oxide, Steel Wire Mesh and Fibers on the Impact Resistance of Preplaced Aggregate Concrete
    Journal of Building Engineering, Oct 2024
    DOI: 10.1016/j.jobe.2024.110363
    Contributors: G. Murali, K. Karthikeyan, M. Senthilpandian, Leong Sing Wong, Sallal R. Abid, A. Hemanth Kumar

  • Sustainable Concrete Innovation Using Industrial Waste
    Recognized for developing concrete incorporating solid waste polyurethane foam and nanomaterials, offering enhanced mechanical performance and ecological sustainability.
    Citation: Rooban Kumar, R., & Senthilpandian, M. (2025). Utilisation of solid waste polyurethane foam as coarse aggregate in concrete. Journal of Material Cycles and Waste Management. https://doi.org/10.1007/s10163-024-02106-2.

  • AI-Driven Structural Joint Prediction Models
    Awarded for pioneering the application of fuzzy logic and machine learning in predicting extended end-plate joint behavior in steel structures, enabling automation and precision in structural design.
    Citation: Senthilpandian, M., Santhi, M.H., et al. (2023). An intelligent prediction system for predicting the types of joints on extended endplate long bolted joint using fuzzy rules. Soft Computing. https://doi.org/10.1007/s00500-023-08561-z.

  • Smart Infrastructure with Embedded Electronics and Antennas
    Recognized for integrating stretchable electronics and microstrip antennas into concrete structures for structural health monitoring and real-time diagnostics in construction environments.
    Citation: Nivethika, S.D., & Senthilpandian, M. (2022). Microstrip patch antenna for aluminium formwork applications in construction. IC3IoT Proceedings.

  • Mentorship and Capacity Building in Civil Engineering Research
    Acknowledged for mentoring over 50 M.Tech and 30 B.Tech students and guiding Ph.D. research in smart materials, robotics, and computational mechanics, significantly advancing postgraduate research at VIT.

  • Structural Resilience and Impact-Resistant Design
    Honored for his contributions to improving the impact resistance of concrete slabs through material optimization and hybrid reinforcement strategies, enhancing safety and durability in civil infrastructure.
    Citation: Hemanth Kumar Anbu, U., Karthikeyan, K., & Senthilpandian, M. (2025). Enhancing Impact Resistance of Concrete Slabs. Advances in Science and Technology Research Journal. https://doi.org/10.12913/22998624/204679.