Assist. Prof. Dr. Mahnaz Mohammadi | DFT- Energy | Best Researcher Award
Assistant | qom university of thecnology | Iran
Mahnaz Mohammadi is an accomplished solid-state physicist with a specialized focus on computational materials science. With extensive experience in density functional theory (DFT), molecular dynamics, and quantum computations, her work addresses critical issues in areas like energy storage, nano-materials, and advanced battery technologies. She holds a Ph.D. in Solid-State Physics from the University of Kashan and has contributed significantly to the theoretical understanding of various materials, including carbon nanotubes, nanocomposites, and metal-ion batteries.
Profile
Education
Mahnaz Mohammadi pursued her Ph.D. in Solid-State Physics at the University of Kashan, Iran, under the supervision of Dr. Khoshnevisan. Her dissertation, which focused on the impact of Co and Ge doping on the structural, electronic, and hydrogen adsorption properties of narrow carbon nanotubes, showcased her deep understanding of nanomaterials. Prior to her Ph.D., she completed her M.Sc. in Solid-State Physics, also from the University of Kashan, with a thesis on the twinning effect on high-temperature superconductor YBCO diffraction data. She earned her B.Sc. in Solid-State Physics, ranking third in her province, marking the beginning of her academic journey.
Experience
Dr. Mohammadi has had an influential academic and research career spanning over a decade. She has worked on several pivotal projects, including the study of Ge-doped single-walled carbon nanotubes (SWCNTs) and the systematic investigation of hydrogen absorption in Co-doped CNTs. Her research has also extended to exploring the application of carbon nanotubes in nano-fluid viscosity and performance enhancement of metal-ion batteries. She has taught and supervised numerous graduate students in her capacity as a thesis advisor at the University of Kashan.
Research Interests
Dr. Mohammadi’s primary research interests lie in the areas of computational materials science, with a particular focus on solid-state physics. Her work uses advanced computational tools to model and predict the properties of materials at the atomic and molecular levels. Her research spans various topics such as carbon nanotubes, nanostructures, molecular dynamics simulations, and the development of new materials for energy storage and drug delivery. Specifically, her studies on nano-batteries and hydrogen storage materials are significant contributions to the field.
Awards
Dr. Mohammadi’s excellence in research and academics has been recognized through several prestigious awards. She received the Research Excellence Award in 2016 from Qom University of Technology and again in 2012 from the University of Kashan’s Faculty of Physics. Additionally, she earned recognition for her outstanding academic performance, being ranked third in her province for her B.Sc. degree in 2007. These accolades underscore her deep commitment to advancing scientific knowledge.
Publications
Mahnaz Mohammadi has published multiple research articles in leading journals. Her work primarily revolves around computational studies of various materials and their potential applications in energy systems. Some of her key publications include:
Electronic, magnetic and thermoelectric properties of Nb-substituted Fe2TiO5 pseudobrookite compound: Ab initio study (2022) in Journal of Computational Electronics.
Can MoS2 membrane be used for removal of mineral pollutants from water? First-principle study (2022) in Materials Science and Engineering: B.
First-Principles Calculations of Graphene-WS2 Nanoribbons As Electrode Material for Magnesium-Ion Batteries (2022) in Journal of Electronic Materials.
Electronic Structure, Optical Properties, and Potential Applications of nBN/WS2 (n = 1 to 4) Heterostructures (2021) in Journal of Electronic Materials.
Magnetite Fe3O4 surface as an effective drug delivery system for cancer treatment drugs: density functional theory study (2021) in Journal of Biomolecular Structure and Dynamics.
Performance of a Novel 3D Graphene–WS2 Hybrid Structure for Sodium-Ion Batteries (2020) in The Journal of Physical Chemistry C.
Her publications have been widely cited, with many articles garnering attention from the academic community and contributing to the advancement of nanomaterials and energy solutions.
Conclusion
Mahnaz Mohammadi is a leading expert in solid-state physics and computational materials science. Her pioneering research in areas such as nanotechnology, energy storage, and materials for drug delivery has made substantial contributions to her field. She continues to innovate and inspire through her work at the intersection of theoretical physics and applied materials science, mentoring future generations of researchers while advancing the scientific community’s understanding of complex materials. With numerous prestigious awards and an impressive record of publications, Dr. Mohammadi remains at the forefront of scientific research in her field.