Prof. Dr. Rogério Navarro Correia de Siqueira | Sustainable Nanomaterials | Best Researcher Award

Professor at Pontifical Catholic University of Rio de Janeiro | Brazil

Prof. Dr. Rogério Navarro Correia de Siqueira is a faculty member in the Department of Chemical and Materials Engineering at the Pontifical Catholic University of Rio de Janeiro (PUC-Rio), where he earned his Ph.D. and has served as an adjunct professor. His research spans nanomaterials synthesis, bio-based materials processing, and thermodynamic modeling of non-ideal systems, with significant contributions in the development of oxidized nanocatalysts supported by cellulose nanofibers for hydrogen generation, adsorption of transition metals from aqueous solutions, and the design of hybrid nanomaterials for energy storage and sustainable energy applications. Prof. Siqueira has led multiple projects, including two completed and two ongoing funded research initiatives, alongside consultancy experience and patent development, reflecting both academic and industrial engagement. He has published 26 papers in international journals indexed in Scopus and Web of Science, has served as guest editor for special issues in Minerals and Metals (MDPI), and actively collaborates with leading institutions such as TU-Berlin, UERJ, and UFOP on advanced nanocatalyst design and CO₂ capture modeling. According to Scopus, his work has been cited 167 times, and he has an h-index of 9, reflecting an emerging but growing impact in nanomaterials and energy transition research. His contributions to efficient computational methods for vapor–liquid equilibria, adsorption studies on functionalized nanocellulose, and catalytic hydrogen generation highlight his role in advancing sustainable materials science and metallurgical engineering applications. Prof. Siqueira continues to build international recognition through innovative approaches that bridge fundamental research with real-world energy solutions.

Profile: Scopus | ORCID

Feautured Publications

Braz, W. F., Teixeira, L. T., Navarro, R., & Pandoli, O. G. (2025). Nanocellulose application for metal adsorption and its effect on nanofiber thermal behavior. Metals, 15(8), 832.

Rego, A. S. C., Navarro, R. C. S., Brocchi, E. A., & Souza, R. F. M. (2024). Kinetic study on the thermal decomposition of iron (II) sulfate using a global optimization approach. Materials Chemistry and Physics, 304, 129869.

Moreira, P. H. L. R., Siqueira, R. N. C., & Vilani, C. (2024). A simple chemical equilibrium algorithm applied for single and multiple reaction systems. Computer Applications in Engineering Education, 32(3), 987–1004.

Teixeira, L. T., Lima, S. L. S. de, Rosado, T. F., Liu, L., Vitorino, H. A., dos Santos, C. C., Mendonça, J. P., Garcia, M. A. S., Siqueira, R. N. C., & da Silva, A. G. M. (2023). Sustainable cellulose nanofibers-mediated synthesis of uniform spinel Zn-ferrites nanocorals for high performances in supercapacitors. International Journal of Molecular Sciences, 24(11), 9169.

Teixeira, L. T., Braz, W. F., Siqueira, R. N. C., Pandoli, O. G., & Geraldes, M. C. (2021). Sulfated and carboxylated nanocellulose for Co²⁺ adsorption. Journal of Materials Research and Technology, 15, 123–135.

Syeda Naveed Kazmi | Fluid Mechanics | Best Researcher Award

Lecturer at Mirpur University of Science and Technology | Pakistan

Dr. Syeda Naveed Kazmi is a Senior Lecturer in Mathematics at Mirpur University of Science and Technology (MUST), Pakistan, specializing in heat transfer analysis for peristaltic transport of Newtonian and non-Newtonian nanofluids. She completed her Ph.D. in Mathematics from COMSATS University Islamabad, following an M.Sc. from the University of Azad Jammu & Kashmir. Dr. Kazmi’s research focuses on fluid mechanics, computational fluid dynamics, and nanofluid heat transfer, with a particular emphasis on peristaltic transport mechanisms. She has authored several publications in international journals, including “Entropy generation analysis for hybrid nanofluid mobilized by peristalsis with an inclined magnetic field” in Advances in Mechanical Engineering and “Peristaltic flow under the effects of tilted magnetic field: enhancing heat transfer using graphene nanoparticles” in the International Journal of Modelling and Simulation. Additionally, her work on “Thermal analysis of hybrid nanoliquid containing iron-oxide (Fe3O4) and copper (Cu) nanoparticles in an enclosure” was published in Alexandria Engineering Journal. Her contributions to the field have been recognized internationally, and she continues to advance research in the areas of nanofluid dynamics and heat transfer. Dr. Kazmi’s academic journey reflects a commitment to excellence in research and education in applied mathematics.

Profile: ORCID | Google Scholar

Feautured Publications

Kazmi, S. N., Haq, R. U., & Mekkaoui, T. (2017). Thermal management of water based SWCNTs enclosed in a partially heated trapezoidal cavity via FEM. International Journal of Heat and Mass Transfer, 112, 972–982. Cited by 93.

Qin, H. L., Leng, J., Youssif, B. G. M., Amjad, M. W., Raja, M. A. G., Hussain, M. A., … Kazmi, S. N. (2017). Synthesis and mechanistic studies of curcumin analog‐based oximes as potential anticancer agents. Chemical Biology & Drug Design, 90(3), 443–449. Cited by 47.

Kazmi, S. N., Hussain, A., Rehman, K. U., & Shatanawi, W. (2024). Thermal analysis of hybrid nanoliquid contains iron-oxide (Fe3O4) and copper (Cu) nanoparticles in an enclosure. Alexandria Engineering Journal, 101, 176–185. Cited by 8.

Kazmi, S. N., Abbasi, F. M., & Shehzad, S. A. (2023). An electroosmotic peristaltic flow of graphene-lubrication oil nanofluid through a symmetric channel. Advances in Mechanical Engineering, 15(6), 16878132231177956. Cited by 5.

Kazmi, S. N., Abbasi, F. M., & Iqbal, J. (2024). Double diffusive convection for MHD peristaltic movement of Carreau nanofluid with Hall effects. Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanomaterials, Nanoengineering and Nanosystems. Cited by 3.