Dr. Fereshteh Meshkani - Catalysis - Best Researcher Award
university of Calgary - Canada
Author Profile
🎓 Early academic pursuits
Fereshteh Meshkani embarked on her academic journey at persian gulf university, where she earned her b.sc. in chemical engineering with a solid foundation in chemical processes. her passion for catalysis led her to pursue an m.sc. at the university of kashan, focusing on bi-metallic catalysts for methane reforming. continuing her research trajectory, she obtained her ph.d. in chemical engineering, where she specialized in mesoporous nanocrystalline iron oxide catalysts for the high-temperature water gas shift reaction. her academic excellence is reflected in her impressive gpa of 19.75/20, showcasing her deep commitment to research and innovation.
👩🔬 Professional endeavors
Dr. Meshkani has built a remarkable career, contributing to academia and industry alike. she is associated with the catalyst and advanced materials research laboratory (camrl) at the university of kashan and holds a position at the nano science and technology institute of the same university. additionally, her expertise extends internationally, as she collaborates with the university of calgary’s department of chemical and petroleum engineering. her roles across these institutions demonstrate her leadership in chemical engineering, particularly in catalyst development and advanced materials.
🔬 Contributions and research focus
Her research interests lie at the forefront of chemical engineering, with a focus on heterogeneous catalysis, nanocatalysis, and porous materials. dr. meshkani has made significant strides in catalytic co and co2 conversion, hydrogen production, and the water gas shift process. she has worked on developing innovative catalysts, Catalysis such as bi-metallic catalysts (ni-pt) and mesoporous nanocrystalline iron oxide catalysts, which have advanced the field of gas processing and reforming reactions. her research aims to enhance efficiency in hydrogen production, syngas generation, and methane reforming, contributing to sustainable energy solutions.
🏅 Accolades and recognition
Dr. Meshkani's academic and research achievements have not gone unnoticed. her stellar gpa during her ph.d. reflects her dedication, and she has gained recognition within the scientific community for her contributions to catalysis and nanomaterials. she has led several high-impact research projects, enhancing her reputation as Catalysis an authority in nanocatalysis and hydrogen production technologies. her work is not only innovative but also practical, as she has designed and developed laboratory-scale catalytic evaluation setups (cata-test), further solidifying her standing in the field.
🌍 Impact and influence
The impact of dr. meshkani's research extends beyond academia into global efforts for cleaner energy. by focusing on co2 methanation, syngas production, and Catalysis hydrogen production through catalytic processes, she contributes to reducing greenhouse gas emissions and advancing carbon-neutral technologies. her work on co2 conversion is particularly relevant to climate change mitigation efforts, as it provides pathways for utilizing harmful emissions. her influence is seen in both academic advancements and the practical applications of her research in industrial settings.
🧬 Legacy and future contributions
As a dedicated researcher and mentor, dr. meshkani’s legacy is already being shaped by her contributions to the field of catalysis and nanotechnology. she has laid the groundwork for future advancements in energy conversion and catalysis, and her continued involvement in cutting-edge research promises to make significant strides in chemical engineering. her influence as an educator, coupled with her research, ensures that she will inspire the next generation of scientists, pushing the boundaries of innovation in sustainable energy and catalysis.
Notable Publications
- Simultaneous production of highly pure hydrogen and carbon nanofibers through COx-free methane dissociation over Ni-based catalysts: Investigation of the promotional effects of transitional metal (Mn, Zr, and Zn)
Authors: Bibak, F. and Meshkani, F.
Journal: Journal of Environmental Chemical Engineering, 2024, 12(5), 113556 - Highly pure hydrogen production via the thermocatalytic decomposition of methane over Ni/SiO2.MgO catalysts: Impact of the catalyst's chemical composition
Authors: Karimi, S., Meshkani, F., Rezaei, M., Rastegarpanah, A.
Journal: Ceramics International, 2024, 50(19), pp. 36979–36992 - The influence of promoters on the catalytic behavior of the Ni/SiO2.MgO catalysts for thermocatalytic decomposition of methane reaction
Authors: Karimi, S., Meshkani, F., Rezaei, M., Rastegarpanah, A.
Journal: Fuel, 2024, 372, 131945 - CO2 reforming of biodiesel-waste glycerol on nanostructure Ni-SiO2.MgO catalysts for syngas production: Influence of the catalyst chemical composition
Authors: Pirzadi, Z., Meshkani, F.
Journal: Energy Conversion and Management, 2024, 315, 118749 - Glycerol dry reforming over Ni-based supported on magnesium oxide composites
Authors: Salehi, R., Meshkani, F.
Journal: International Journal of Hydrogen Energy, 2024, 78, pp. 279–293