Sachin Mishra | Materials Science | Editorial Board Member

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Dr. Sachin Mishra | Materials Science | Editorial Board Member

Principal Investigator | University of Rovira I Virgilli | Spain

Dr. Sachin Mishra is a multidisciplinary researcher whose work lies at the intersection of biosensors, nanomaterials, smart biomaterials, and advanced capacitive sensing technologies. His research focuses on creating innovative, application-driven sensor systems that address emerging needs in healthcare diagnostics, environmental monitoring, and bioanalytical engineering. Through his expertise in nanotechnology and functional material design, he develops highly sensitive, miniaturized platforms capable of detecting chemical and biological analytes with exceptional precision. His contributions include the integration of nanostructured materials into next-generation biosensing interfaces, enabling improved signal transduction, enhanced biocompatibility, and superior device performance. He has been actively involved in academic and industrial research environments in different countries, collaborating with interdisciplinary teams to translate fundamental nanoscience into real-world technologies. His work emphasizes capacitive biosensors and engineered biomaterials that support label-free, rapid, and cost-effective analytical solutions for global challenges. Dr. Mishra’s scientific output spans high-quality publications, collaborative projects, and contributions to the development of smart, responsive materials for biomedical and electronic applications. His professional experience also includes leading research directions, supervising experimental activities, and advancing sensor fabrication techniques through micro- and nano-engineering approaches. He remains committed to exploring the potential of nanotechnology to revolutionize biosensing platforms, expand the capabilities of portable diagnostic devices, and contribute to smart healthcare and sustainable technological innovations worldwide.

Profile: Scopus | Orcid | Google Scholar

Featured Publications

Sharma, P. K., Kim, E. S., Mishra, S., Ganbold, E., Seong, R. S., Kaushik, A. K., … et al. (2021). Ultrasensitive and reusable graphene oxide-modified double-interdigitated capacitive (DIDC) sensing chip for detecting SARS-CoV-2. ACS Sensors, 105.

Razlansari, M., Ulucan-Karnak, F., Kahrizi, M., Mirinejad, S., Sargazi, S., … Mishra, S., et al. (2022). Nanobiosensors for detection of opioids: A review of latest advancements. European Journal of Pharmaceutics and Biopharmaceutics, 179, 79–94.

Mishra, S., Kim, E. S., Sharma, P. K., Wang, Z. J., Yang, S. H., Kaushik, A. K., Wang, C., … et al. (2020). Tailored biofunctionalized biosensor for the label-free sensing of prostate-specific antigen. ACS Applied Bio Materials, 3(11), 7821–7830.

Mishra, P., Lakshmi, G., Mishra, S., Avasthi, D. K., Swart, H. C., Turner, A. P. F., … et al. (2017). Electrocatalytic biofuel cell based on highly efficient metal–polymer nano-architectured bioelectrodes. Nano Energy, 39, 601–607.

Sharma, P. K., Kim, E. S., Mishra, S., Ganbold, E., Seong, R. S., Kim, Y. M., Jahng, G. H., … et al. (2022). Ultrasensitive probeless capacitive biosensor for amyloid beta (Aβ1-42) detection in human plasma using interdigitated electrodes. Biosensors and Bioelectronics, 212, 114365.

Francis Collombet | Composite materials | Best Researcher Award

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Prof. Francis Collombet | Composite materials | Best Researcher Award

Professor Emeritus | Toulouse University | France

Prof. Francis Collombet is a distinguished materials scientist and civil engineer recognized for his pioneering contributions to the study of concrete and composite materials under complex loading conditions. His research focuses on understanding material damage mechanisms, high strain-rate behavior, and the mechanical performance of advanced composites used in engineering and industrial applications. Over his career, he has published extensively in international peer-reviewed journals and contributed to numerous collective works, patents, and international conferences, reflecting his sustained impact on the global research community. His expertise spans composite impact experimentation and modeling, innovative drilling and repair techniques for composite structures, and the application of optical fiber technologies with Bragg gratings for structural health monitoring. As a highly experienced academic and research supervisor, he has guided numerous doctoral candidates and contributed significantly to the advancement of knowledge in material behavior, durability, and performance optimization. His work integrates experimental, analytical, and technological perspectives, bridging the gap between material science and applied civil engineering. Recognized for both academic excellence and mentorship, Professor Collombet continues to influence the field through interdisciplinary research collaborations, innovative methodologies, and a commitment to advancing sustainable and resilient material solutions for modern infrastructure and engineering systems.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Saihi, M. H., Sassi, S., Collombet, F., Grunevald, Y.-H., & Davila, Y. (2025, September). Multi-instrumented technological evaluator for elastic properties identification in bio-based tertiary packaging. Journal of Composite Materials.

Paccou, T., Collombet, F., Rouquand, A., Crouzeix, L., Davila, Y., & Grunevald, Y. H. (2025, September 4). Experimental and numerical study of near-field explosion with small charges on composite structure. Journal of Dynamic Behavior of Materials.

Saihi, M. H., Sassi, S., Collombet, F., Grunevald, Y.-H., Davila, Y., & Zitoune, R. (2024, November). Elastic properties identification of a bio-based material in tertiary packaging: Tools and methods development. Journal of Composite Materials.

Collombet, F., Torres, M., Douchin, B., Crouzeix, L., Grunevald, Y.-H., Lubin, J., Camps, T., Jacob, X., Luyckx, G., & Wu, K.-T. (2020). Multi-instrumentation monitoring for the curing process of a composite structure. Measurement: Journal of the International Measurement Confederation.

Hejjaji, A., Zitoune, R., Toubal, L., Crouzeix, L., & Collombet, F. (2019). Influence of controlled depth abrasive water jet milling on the fatigue behavior of carbon/epoxy composites. Composites Part A: Applied Science and Manufacturing.