Aléxia Thamara Gasparin | Diagnostic | Research Excellence Award

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Mrs. Aléxia Thamara Gasparin | Diagnostic | Research Excellence Award

Hilab | Brazil

Mrs. Aléxia Thamara Gasparin is a dedicated biotechnology and pharmacology professional whose academic and research journey reflects strong commitment to scientific advancement and health innovation. She holds a technical qualification in Biotechnology and Industrial Bioprocesses from SENAI-PR, a Bachelor’s degree in Biological Sciences from the Federal University of Paraná (UFPR), and a Master’s degree in Pharmacology from UFPR. Throughout her education, she developed extensive laboratory expertise, particularly in evaluating the pharmacological potential and adverse effects of bioactive compounds, and she actively participated in specialized training programs in pharmacology, psychopharmacotherapy, epigenetics, and animal handling. Her professional experience includes significant contributions to research projects focused on antinociceptive and anti-inflammatory mechanisms, as well as the development of interactive and didactic scientific materials. She also played a key role in science outreach and health-related extension activities. Currently, she is part of the research and development team at Hilab, where she contributes to the innovation of remotely operated laboratory tests (RTL) and internationally patented products designed to expand access to healthcare technologies in Brazil. Her achievements include top rankings and awards in scientific presentation events, highlighting her proficiency and dedication. Aléxia continues to build a meaningful career focused on pharmacology, biotechnology, and health democratization.

Profile: Scopus

Featured Publication

Pharmacological Interaction Between Cannabidiol and Tramadol on Experimental Diabetic Neuropathic Pain: An Isobolographic Analysis

Author: Cannabis and Cannabinoid Research

Year: 2024

Opeyemi Akanbi | Electroanalytical Methods | Research Excellence Award

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Mr. Opeyemi Akanbi | Electroanalytical Methods | Research Excellence Award

 University of Massachusetts Lowell | United States

Mr. Opeyemi Akanbi is a dedicated PhD Candidate in Physics and Applied Physics at the University of Massachusetts Lowell, where he focuses on advanced research at the intersection of materials science, transport phenomena, and functional textile engineering. With academic training that spans physics, materials science, and applied engineering, he has gained diverse experience working on optical strain sensors, humidity-control textiles, electrokinetic systems, and functional polymers. His current research centers on the design and optimization of low-power electroosmotic pumps and textile-integrated microfluidic platforms aimed at improving moisture and sweat management in wearable technologies. Combining experimental device fabrication with multiphysics modeling of ion transport, fluid flow, and heat transfer, he advances innovative solutions for smart garments, personal comfort enhancement, and healthcare monitoring applications. His work reflects strong interests in electroosmotic flow, soft-material transport behavior, photonics, and the integration of microfluidic architectures into flexible substrates. As an active member of leading scientific communities such as ACS, MRS, and IEEE, he consistently engages in interdisciplinary research and academic collaboration. He has contributed to impactful research outputs and received recognition for innovation in functional textile development. He aims to continue developing science-driven technologies that bridge physics, materials engineering, and wearable device innovation.

Profiles: Orcid | Google Scholar

Featured Publications

Hutchins, A., Acharya, S., Akanbi, O., Doan, K., Pinninti, P., Isherwood, K., Rosenberg, Z., Filocamo, S., Zhang, Y., & Guo, W. (2025). “Low Power Textile Integrated Electroosmosis Pump for Active Moisture and Sweat Management.” iScience.

Akanbi, O.S., Shannon, J.P., Delhommelle, J., & Desgranges, C. (2025). “Synergizing Driven Quantum Dynamics, AI, and Quantum Computing for Next-Gen Materials Science.” The Journal of Physical Chemistry Letters.

Hutchins, A., Reens, D., Kharas, D., West, G.N., Sorace-Agaskar, C., Chiaverini, J., McConnell, R., Swint, R., Akanbi, O., Harding, S., et al. (2024). “Fiber-to-Chip Packaging With Robust Fiber Fusion Splicing for Low-Temperature Applications.” IEEE Photonics Technology Letters.

Balogun, S.W., Oyeshola, H.O., Ajani, A.S., James, O.O., Awodele, M.K., Adewumi, H.K., Àlàgbé, G.A., Olabisi, O., Akanbi, O.S., Ojeniyi, F.A., et al. (2024). “Synthesis, characterization, and optoelectronic properties of zinc oxide nanoparticles: A precursor as electron transport layer.” Heliyon.

Akanbi, O.S., Usman, H.A., Abass, G.F., Oni, K.E., Ige, A.S., Odunaro, B.P., Ojo, I.J., Oladejo, J.A., Ajani, H.O., Musa, A., et al. (2023). “The Advent of Wide Bandgap Green-Synthesized Copper Zinc Tin Sulfide Nanoparticles for Applications in Optical and Electronic Devices.” Journal of Materials Science and Chemical Engineering.

Rimamnya, N.D., Akanbi, O.S., Bunmi, D.C., Abass, G.F., Olaniyan, J.A., Ige, A.S., Moyofoluwa, O.O., Kolawole, B.T., et al. (2023). “Evolution of Carbon Nanotubes, Their Methods, and Application as Reinforcements in Polymer Nanocomposites: A Review.” Journal of Advanced Mechanical Engineering Applications.

Akanbi, O., Abass, G., Ige, A., Nyatse, D., Oyeshola, H., Abba, H., Felix, O., Oni, K., Ayotunde, A., Ajao, J., et al. (2023). “Research Advances on 2D Mxenes for Photovoltaic Applications.” Journal of Advanced Mechanical Engineering Applications.

Jinyuan Mao | Molecular Dynamics Simulations | Research Excellence Award

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Dr. Jinyuan Mao | Molecular Dynamics Simulations | Research Excellence Award

BYD Auto Industry Company Ltd | China

Dr. Jinyuan Mao is a Senior Simulation Engineer whose work bridges computational materials science and advanced machine-learning methodologies to accelerate innovation in modern engineering materials. He earned his PhD in Soft Matter Science in 2024 from the South China University of Technology, where he received rigorous training in molecular modeling and multiscale simulation under expert mentorship. After completing his doctoral studies, he joined BYD Auto Industry Company Ltd. in collaboration with Fudan University, contributing to cutting-edge research that integrates atomic-scale simulations with data-driven modeling strategies. His professional experience spans the study of mechanical behavior in metals, composites, and soft matter, with an emphasis on understanding deformation mechanisms, reliability, and performance enhancement. Dr. Mao’s research interests include machine-learning-accelerated materials discovery, molecular dynamics simulations, mesoscale modeling, and the development of predictive frameworks for complex material systems. He has contributed to high-impact publications in computational materials science and has been recognized for scientific excellence through academic awards and research achievements during his doctoral years. Committed to advancing simulation-driven design, he continues to explore innovative computational approaches that bridge theory and application, supporting the development of next-generation materials for industrial and technological advancement.

Profiles: Orcid | Google Scholar

Featured Publications

Liu, J., Mao, J., Wang, B., Wang, Q., Zhang, N., & Pan, S. (2025). Study on the mechanical properties and critical temperature of FeNiCrMn alloy using MD-ML-MA framework. Journal of Molecular Modeling.

Mao, J., Zhou, J., & Liu, H. (2024). One-pot strategy for the preparation of nanoparticles grafted with bimodal polymers: An in-silico insight. Composites Science and Technology.

Mao, J., Jia, X.-M., Zhang, G., & Zhou, J. (2024). Excluded volume of slide rings in single-chain polyrotaxane. Macromolecules.

Li, C.-X., Mao, J.-Y., Li, S.-J., Wang, Y., & Liu, H. (2023). A long chain-induced depletion effect for abnormal grafting in the preparation of bimodal bidisperse polymer-grafted nanoparticles. Physical Chemistry Chemical Physics.

Mao, J., Hu, Z., Hu, J., Zhu, X., & Xiong, H. (2019). A Density Functional Theory (DFT) study of the acyl migration occurring during lipase-catalyzed transesterifications. International Journal of Molecular Sciences.

Nicholas Candy | Surgical Hydrogels | Research Excellence Award

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Dr. Nicholas Candy | Surgical Hydrogels | Research Excellence Award

University of Adelaide | Australia

Dr. Nicholas Candy is an accomplished neurosurgeon and academic whose career blends advanced clinical expertise with impactful research. He holds a Master of Surgery in Neurosurgery from the University of Sydney and completed his PhD at the University of Adelaide, where he later progressed to roles as Clinical Lecturer and Senior Clinical Lecturer. His extensive clinical experience spans multiple accredited registrar positions across leading Australian hospitals, including the Royal Adelaide Hospital, Royal Brisbane and Women’s Hospital, and Flinders Medical Centre. He has cultivated strong research interests in pituitary surgery, postoperative outcomes, neuro-endocrine preservation, and innovations that reduce surgical scarring and complications. His role as Coordinating Principal Investigator in a Phase I trial on Chitogel and Deferiprone Gel reflects his commitment to translational research designed to enhance neurosurgical recovery. Dr. Candy has supervised doctoral research, contributed to international clinical studies, and carried out significant work in traumatic brain injury outcomes and neurosurgical quality-of-life assessments. His academic impact and contributions have earned him notable awards, including multiple prestigious research scholarships from the Royal Australasian College of Surgeons and recognition as the Sheldon College Young Alumnus of the Year. Overall, he stands out as a dedicated clinician-scientist advancing modern neurosurgical practice.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Ovenden, C., Mignone, E., Chapman, I., Torpy, D. J., Rankin, W., Jukes, A., Santoreneos, S., Candy, N., Psaltis, A., & De Sousa, S. M. C. (2026). “Early Postoperative Decline in Insulin-Like Growth Factor 1 (IGF-1) Predicts Surgical Remission of Acromegaly.” World Neurosurgery.

Candy, N. G., Barry, E. F., Tomatis, V. M., Patel, S., Miller, J., Ovenden, C., Nowicki, J., Hammam, E., Poonnoose, S., Sandler, S., et al. (2025). “Phase I Trial to Evaluate Safety of Deferiprone-Chitogel to Prevent Epidural Fibrosis in Lumbar Spine Surgery.” European Spine Journal.

Tong, J. Y., Candy, N. G., Sung, J., Jukes, A. K., & Selva, D. (2025). “In Reply: Transorbital Approach to the Cavernous Sinus After an Exenteration.” Operative Neurosurgery.

Tong, J. Y., Candy, N. G., Sung, J., Jukes, A. K., & Selva, D. (2025). “Transorbital Approach to the Cavernous Sinus After an Exenteration.” Operative Neurosurgery.

Candy, N. G., Jukes, A. K., Ooi, E. H., Valentine, R., Vrodos, N., Santoreneos, S., Floreani, S., Wormald, P.-J., & Psaltis, A. J. (2025). “The Evolution of Pituitary Surgery in an Australian Health Care Framework.” Journal of Neurological Surgery Part B: Skull Base.

Candy, N. G., Zhang, A. S., Jukes, A. K., & Wormald, P. J. (2025). “Sphenoid sinusitis with extradural empyema in a paediatric patient.” Journal of Clinical Neuroscience.

Mansour, L. T., Candy, N., Nowicki, J., Jukes, A., Chryssidis, S., & Harding, M. (2024). “An infratentorial dural arteriovenous fistula mimicking cervical myelopathy: A case report.” Clinical Neurology and Neurosurgery.

Santosh Chackrabarti | Thick Films | Research Excellence Award

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Dr. Santosh Chackrabarti | Thick Films | Research Excellence Award

Jamia Millia Islamia | India

Dr. Santosh Chackrabarti is a dedicated researcher in nanophotonics and materials science, recognized for his contributions to semiconductor lasers, nanostructured thin films, and advanced 2D and metal oxide materials. With a strong academic foundation including a Ph.D. in Material Science and Lasers, an M.Sc. in Physics, and a B.Sc. in Physics, he has developed expertise across optical, electrical, and structural characterization techniques such as SEM, XRD, FTIR, UV-Vis, and photoluminescence analysis. His professional journey spans impactful roles as a freelance researcher, research associate, guest lecturer, and physics educator at undergraduate and postgraduate levels, demonstrating proficiency in both scientific innovation and academic instruction. He has authored more than seventeen peer-reviewed journal publications, review articles, and book chapters, along with presenting at international conferences. His research interests include semiconductor thin films, nanostructured oxides, optoelectronic materials, quantum wells, and laser-material interactions, with additional involvement in photocatalytic nanomaterials for energy and environmental applications. His work on metal oxide nanocomposites has been supported by competitive research grants, reflecting recognition of his scientific capabilities. Dr. Chackrabarti continues to advance interdisciplinary research while inspiring emerging scholars through mentorship and high-quality teaching.

Profile: Scopus

Featured Publications

An in-depth Analysis of the Physical Characteristics of TiO2–CuO Films Fabricated via Spray Pyrolysis

Journal: Semiconductors

Year: 2024

Xia Yan | Raman Spectroscopy | Young Scientist Award

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Dr. Xia Yan | Raman Spectroscopy | Young Scientist Award

Lyuliang University | China

Xia Yan is an accomplished Associate Professor at Lyuliang University, recognized for her growing contributions to marine detection and optical sensing research. She holds a strong academic foundation built through a Bachelor’s degree in Physics, followed by a Master of Engineering in Optical Engineering, and culminating in a Ph.D. in Marine Detection Technology from the Ocean University of China. Throughout her academic and professional journey, she has developed deep expertise in ocean observation technologies, optical signal processing, and advanced detection systems for marine environments. Since joining Lyuliang University in 2022, she has been actively engaged in teaching, research, and guiding students in cutting-edge topics related to optical instrumentation and marine measurement techniques. Her research interests include underwater optical imaging, environmental monitoring sensors, and intelligent detection technologies for marine applications. She has contributed to several research projects, published scholarly work, and earned recognition for her innovative approaches in marine technology development. As an emerging researcher, she continues to explore interdisciplinary methods that enhance the precision and efficiency of marine detection systems. With a strong commitment to scientific advancement, she aims to expand her research impact and foster technological progress in marine optical sensing and detection innovation.

Profile: Scopus

Featured Publication

Xue, G.P., Yu, G., & Fen Xi, G.P. (2024). “SERS detection of carbendazim based on convex polyhedrons-shaped Au@4-ATP@Au nanoparticle” in Spectroscopy and Spectral Analysis (Guang Pu Fen Xi).

Moganesh G | Plant Nanoparticles for Medicine | Outstanding Scientist Award

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Dr. Moganesh G | Plant Nanoparticles for Medicine | Outstanding Scientist Award

Saveetha Engineering College | India

Dr. Moganesh G is a dedicated researcher and academician whose work spans physics, materials science, and nanotechnology, with a strong foundation built through advanced degrees including a Doctor of Philosophy in Physics from Sacred Heart College, Thiruvalluvar University. His research career began with contributions at DTR Research Foundation, followed by roles as Lecturer, Research Professor, Assistant Professor, and Director at various reputed institutions, and he currently serves as Research Faculty at Saveetha Engineering College. His expertise centers on nanomaterials synthesis, green synthesis approaches, photocatalysis, nuclear physics, solar cell device fabrication, and the development of energy-storage materials with emerging applications in anti-cancer and anti-diabetic studies. He has made notable scientific contributions, including the development of a Photon-Induced Method for material synthesis and innovative AC TIMER research highlighted in local media. Dr. Moganesh has been honoured with multiple recognitions, such as the Best Researcher Award at the 2nd International Research Awards on Science, Health and Engineering and the International Plant Scientist Award. Through his extensive teaching, research leadership, and continuous innovation, he remains committed to advancing sustainable materials and interdisciplinary solutions that address scientific and societal challenges.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Govindhan, M., Selvaraj, S., & Sukumar, K. (2025). Fluorometric detection of CIP and bioimaging employing a fluorescent nanoprobe with blue emission using carbon quantum dots from papaya seeds (Carica papaya). Journal of Environmental Chemical Engineering.

Govindhan, M. (2025). Green synthesis of structural and bandgap engineering nickel oxide nanostructure for visible light photocatalyst. Catalysis Letters.

Tamilarasu, S., & Govindhan, M. (2025). Phase stability and band-gap engineering of pure TiO₂ for visible light photocatalyst via photon-induced method. Journal of Sol-Gel Science and Technology.

Govindhan, M. (2025). Structural and optical engineering of MgO–ZnO nanocomposite via photon-induced method. Ceramics International.

Sasikumar, P., Chinnaiah, K., Kannan, K., Alqahtani, M. S., Abbas, M., Govindhan, M., & Gurushankar, K. (2024). Evaluating the antimicrobial and electrochemical performance of phenytoin nanoparticles from Catharanthus roseus plant. Chemical Physics Letters.

Selvam, P. P., Rathinam, V., Arunraj, A., Ali Baig, A. B., & Govindhan, M. (2023). Synthesis effect of Mg-doped ZnO nanoparticles for visible light photocatalysis. Ionics.

Nagaraj, G., Chinnaiah, K., Kannan, K., & Gurushankar, K. (2022). Nano-sized neem plant particles as an electrode for electrochemical storage applications. Ionics.

Paola Cicatiello | Functional Amyloid Protein | Best Researcher Award

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Dr. Paola Cicatiello | Functional Amyloid Protein | Best Researcher Award

Department of Chemistry University of Naples “Federico II” | Italy

Dr. Paola Cicatiello is a dedicated researcher in biotechnology and chemical sciences, recognized for her multidisciplinary expertise in protein biochemistry, molecular biology, and biosensing innovation. She completed her academic training, including a PhD at the University of Naples “Federico II,” where she specialized in surface-active proteins and enhanced her proteomic and analytical skills during a research period at Sheffield Hallam University. Her professional experience spans enzyme characterization, enzyme and antibody immobilization, nanomaterial-integrated biosensor platforms, and the development of functional protein biosurfactants with applications in bioremediation, biomedical detection, and drug delivery. She has contributed significantly to projects such as PON_INNOVATION_2021, focusing on self-assembling proteins for advanced biosensing, and has worked with CeRICT srl optimizing polymer- and fiber-based sensing interfaces. Dr. Cicatiello is actively involved in academic service, including research dissemination initiatives and participation in national scientific societies. Her research interests include biotechnology, surface-active and functional amyloid proteins, biocatalysis, and nano-enabled biosensing systems. She has also supported academic growth by supervising students and teaching in biotechnology and chemical sciences programs. Through her scientific contributions, collaborative work, and commitment to innovative biosensing technologies, she continues to advance the frontiers of biochemical research and applied biotechnology.

Profiles: Scopus | Orcid

Featured Publications

Cicatiello, P., Della Ventura, B., Fichera, G., Velotta, R., Giardina, P., & Piscitelli, A. (2025). Gold Nanoparticles Coated With Hydrophobin-ProteinA Fusion Protein: Development of a Versatile Immunosensing Platform. Biotechnology and Bioengineering.

Pitocchi, R., Cicatiello, P., Illiano, A., Fontanarosa, C., Spina, F., Varese, G.C., Amoresano, A., Piscitelli, A., & Giardina, P. (2024). The essential role of aggregation for the emulsifying ability of a fungal CYS-rich protein. Applied Microbiology and Biotechnology.

Cusano, A.M., Quero, G., Vaiano, P., Cicatiello, P., Principe, M., Micco, A., Ruvo, M., Consales, M., & Cusano, A. (2023). Metasurface-assisted Lab-on-fiber optrode for highly sensitive detection of vitamin D. Biosensors and Bioelectronics.

Pitocchi, R., Stanzione, I., Illiano, A., Amoresano, A., Tarallo, O., Cicatiello, P., Piscitelli, A., & Giardina, P. (2023). Evidence of Small Fungal Cysteine-Rich Proteins Acting as Biosurfactants and Self-Assembling into Large Fibers. International Journal of Molecular Sciences.

Dr. Abel Tankoano | Food Chemistry | Best Academic Researcher Award

Published on by Research Chemistry Awards

Dr. Abel Tankoano | Food Chemistry | Best Academic Researcher Award

CNRST/IRSAT | Burkina Faso

Dr. Abel Tankoano is a dedicated biochemist and food technology researcher known for his expertise in food safety, microbial biotechnology, and analytical biochemistry. He holds a PhD in Biochemistry–Microbiology/Food Technology, supported by a Diploma of Advanced Studies in Microbial and Cellular Biotechnology, a Master’s degree in Biochemistry–Microbiology with Applied Microbiology, and earlier foundational studies in biochemistry and microbiology. His professional journey includes significant teaching and research contributions at Université Ouaga I Pr Joseph Ki-Zerbo, where he served as a temporary teaching and research assistant and later as a biochemistry laboratory instructor. Since joining the Department of Food Technology at IRSAT/CNRST in 2019, he has specialized in advanced analytical techniques, including UHPLC for aflatoxin quantification, atomic absorption spectrophotometry for mineral and heavy-metal detection, and HPLC for amino acid profiling. His routine involvement in assessing microbiological and physicochemical quality of foodstuffs reflects his commitment to public health and food security. His research interests span food contaminants, microbial safety, bioprocesses, and nutritional quality assessment. Recognized for his impactful contributions to food science research, he continues to advance innovations that support safer and higher-quality food systems. Overall, Dr. Tankoano’s work exemplifies scientific rigor, practical relevance, and long-term dedication to food technology research.

Profiles: Orcid | Google Scholar

Featured Publications

Bamogo, W. M., Kabré, W. J. d’A., Tankoano, A., Traoré, M. A. E., Banhoro, O., Parkouda, C., & Savadogo, A. (2025). “Valorization of mango by-products: fortification of mugudugu using mango peel and kernels.” Food, Nutrition and Health.

Ouedraogo, O., Kabore, K., Tankoano, A., Bayili, G. R., Belem, A. M. G., & Sawadogo-Lingani, H. (2025). “Incorporation of local ingredients (Soumbala, Moringa, Roucou) in the formulation of nitrite-free cooked sausages: an alternative for healthy nutrition.” Journal of Applied Life Sciences International.

Tankoano, A., Somda, N. S., Guira, F., Pare, A., Zeynab, T. R., Ouedraogo, B. T., Safi, A., Kabore, D., & Sawadogo-Lingani, H. (2025). “Hygiene practices and microbial contamination of liquid Gapal sold in Ouagadougou, Burkina Faso.” Biotechnology Journal International.

Tankoano, A., Kabore, K., Coulibaly-Diakité, M., Somda, N. S., Somé, K. I., Rouamba, A., Kabore, D., Savadogo, A., & Sawadogo-Lingani, H. (2025). “Nutritious raw Soumbala seasoning: an alternative for its valorization and acceptability.” Journal of Advances in Biology & Biotechnology.

Tankoano, A., Kabore, K., Samandoulougou-Kafando, P. M. J., Some, K. I., Coulibaly-Diakité, M., Kabore, D., Savadogo, A., & Sawadogo-Lingani, H. (2024). “Characterization of spice ingredients and raw Soumbala for the formulation of a highly nutritious seasoning.” Cogent Food & Agriculture.

Somda, N. S., Tankoano, A., Metuor-Dabire, A., Kabore, D., Bonkoungou, J. O. I., Kpoda, D. S., Sambe-Ba, B., Dabire, Y., Saba, C. K. S., & Ouoba, I. L. et al. (2023). “A systematic review and meta-analysis of antibiotic resistance of foodborne pathogenic bacteria in West Africa between 2010 and 2020.” Journal of Food Protection.

Bayili, G. R., Coulibaly-Diakite, M., Tankoano, A., Kere-Kando, C., Kabore, T. J., Konfe-Kanwe, M. E. M. P., Rouamba, A., Parkouda, C., & Sawadogo-Lingani, H. (2023). “Physico-chemical, microbiological, and sensorial characteristics of grains, malt, wort, and beer from FKR 19 and FKR 62 N rice varieties grown in Burkina Faso.” Journal of the American Society of Brewing Chemists.

Moganesh G | Green Extract Metal Oxide | Best Researcher Award

Published on by Research Chemistry Awards

Dr. Moganesh G | Green Extract Metal Oxide | Best Researcher Award

Saveetha Engineering College | India

Dr. Moganesh G is a dedicated researcher and academician whose work spans physics, materials science, and nanotechnology, with a strong foundation built through advanced degrees including a Doctor of Philosophy in Physics from Sacred Heart College, Thiruvalluvar University. His research career began with contributions at DTR Research Foundation, followed by roles as Lecturer, Research Professor, Assistant Professor, and Director at various reputed institutions, and he currently serves as Research Faculty at Saveetha Engineering College. His expertise centers on nanomaterials synthesis, green synthesis approaches, photocatalysis, nuclear physics, solar cell device fabrication, and the development of energy-storage materials with emerging applications in anti-cancer and anti-diabetic studies. He has made notable scientific contributions, including the development of a Photon-Induced Method for material synthesis and innovative AC TIMER research highlighted in local media. Dr. Moganesh has been honoured with multiple recognitions, such as the Best Researcher Award at the 2nd International Research Awards on Science, Health and Engineering (2020) and the International Plant Scientist Award (2025). Through his extensive teaching, research leadership, and continuous innovation, he remains committed to advancing sustainable materials and interdisciplinary solutions that address scientific and societal challenges.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Govindhan, M., Selvaraj, S., & Sukumar, K. (2025). Fluorometric detection of CIP and bioimaging employing a fluorescent nanoprobe with blue emission using carbon quantum dots from papaya seeds (Carica papaya). Journal of Environmental Chemical Engineering.

Govindhan, M. (2025). Green synthesis of structural and bandgap engineering nickel oxide nanostructure for visible light photocatalyst. Catalysis Letters.

Tamilarasu, S., & Govindhan, M. (2025). Phase stability and band-gap engineering of pure TiO₂ for visible light photocatalyst via photon-induced method. Journal of Sol-Gel Science and Technology.

Govindhan, M. (2025). Structural and optical engineering of MgO–ZnO nanocomposite via photon-induced method. Ceramics International.

Sasikumar, P., Chinnaiah, K., Kannan, K., Alqahtani, M. S., Abbas, M., Govindhan, M., & Gurushankar, K. (2024). Evaluating the antimicrobial and electrochemical performance of phenytoin nanoparticles from Catharanthus roseus plant. Chemical Physics Letters.

Selvam, P. P., Rathinam, V., Arunraj, A., Ali Baig, A. B., & Govindhan, M. (2023). Synthesis effect of Mg-doped ZnO nanoparticles for visible light photocatalysis. Ionics.

Nagaraj, G., Chinnaiah, K., Kannan, K., & Gurushankar, K. (2022). Nano-sized neem plant particles as an electrode for electrochemical storage applications. Ionics.