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.

Yifei Zhang | Materials Science | Best Academic Researcher Award

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Prof. Yifei Zhang | Materials Science | Best Academic Researcher Award

Professor | Hebei University | China

Prof. Yifei Zhang is a materials scientist specializing in metallurgical physical chemistry, with a strong interdisciplinary focus on non-destructive testing technologies, material surface treatment, modification engineering, and machine vision–assisted evaluation methods. Her research advances the understanding of microstructural evolution, surface behavior, and damage mechanisms in advanced metallic and composite materials, bridging fundamental metallurgical principles with applied diagnostics. She has made notable contributions to the study of oxide-film dynamics in additively manufactured titanium alloys, the microstructural and electrochemical responses of heat-treated metal systems, and the adhesion performance of functional coatings under residual stress conditions. Her work extends into intelligent materials characterization, where she integrates acoustic emission analysis, signal decomposition, and deep-learning frameworks to enhance damage-mode identification in complex composites and metal components. Through innovative combinations of variational mode decomposition, convolutional neural networks, and optimized non-destructive evaluation methods, she has improved the precision and reliability of structural integrity assessments. Her professional experience includes extensive involvement in designing and validating advanced diagnostic techniques, contributing to the development of next-generation material performance evaluation tools. She collaborates across disciplines to connect materials processing, mechanical behavior, and sensing technologies, supporting safer, more efficient applications in engineering structures and manufacturing environments. Her scientific output reflects a commitment to integrating experimental research with computational enhancement, contributing significantly to the fields of material surface engineering, structural health monitoring, and intelligent testing systems.

Profile: Scopus

Featured Publications

Zhang, Y., Li, J., Xu, H., & others. (2020). Dynamic evolution of oxide film on selective laser melted Ti-Al-4V alloy. Journal of Alloys and Compounds, 849, 156622.

Zhang, Y., Feng, L., Zhang, T., & others. (2021). Heat treatment of additively manufactured Ti-6Al-4V alloy: Microstructure and electrochemical properties. Journal of Alloys and Compounds, 888, 161602.

Zhou, W., Li, D., Su, Y., & Zhang, Y.* (2024). Experimental study on the static strain aging of Q345 steel using complementary in-situ non-destructive testing techniques. International Journal of Steel Structures, 24(3), 591–606.

Zhang, Y., Yao, Y., Li, J., & others. (2025). Effect of residual stress on adhesion behaviour of TiN coating. Bulletin of Materials Science, 48, 72.

Zhang, Y., Ge, X., Su, Y., & others. (2025). Damage mode identification in 2D triaxial carbon fiber braided composites via acoustic emission segmentation and variational mode decomposition optimization. Polymer Composites, 1–16.

Ming Wang | Chemistry and Materials Science | Best Researcher Award

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Prof. Dr. Ming Wang | Chemistry and Materials Science | Best Researcher Award

professor East China Normal University China

📘 Ming Wang is a Professor and Doctor at the School of Chemistry and Molecular Engineering, East China Normal University (ECNU), Shanghai, China. His research focuses on advancing organosulfur chemistry and asymmetric catalysis.

Profile

Scopus

Education

🎓 Ming Wang earned his Ph.D. in Pharmaceutical Engineering and Science from East China University of Science and Technology in 2011 under Prof. Wei-Ping Deng’s guidance. He then pursued postdoctoral research (2011–2014) at Nanyang Technological University, Singapore, under Prof. Yonggui Robin Chi, before joining ECNU as a professor in 2014.

Experience

🔬 Ming Wang has extensive experience in cutting-edge research and academic leadership. Since 2014, he has been a professor at ECNU, driving innovation in organosulfur chemistry. His earlier postdoctoral fellowship at NTU allowed him to expand his expertise in catalysis and molecular engineering.

Research Interests

🧪 Ming Wang’s research primarily revolves around:

  1. Organosulfur Chemistry: Developing new methods and applications for sulfur-containing compounds.
  2. Asymmetric Catalysis: Creating chiral catalysts for pharmaceutical and chemical synthesis.

Awards

🏆 Ming Wang has been recognized with several prestigious awards for his significant contributions to sulfur and catalytic chemistry, cementing his role as a leader in his field.

Publications Top Notes:

📄 Ming Wang has authored impactful papers on sulfur chemistry, including recent works like:

“C-SuFEx Linkage of Sulfonimidoyl Fluorides and Organotrifluoroborates” in Nature Communications (2024), cited by cutting-edge research.

“Sulfur-Containing Peptides: Synthesis and Applications” in Current Opinion in Chemical Biology (2023).