Assoc Prof Dr. Mahsa fakharpour | Nanostructure | Best Researcher Award
Assoc Prof Dr at Islamic Azad University of Meybod Branch, Meybod, Iran
profile
Scholar
Education š
Mahsa earned her PhD in Physics Science (Solid State and Nanostructures) from Islamic Azad University, Tehran (2011-2016). She also holds an MSc in Physics Science (Solid State) from Yazd University (2003-2006) and a BSc in Physics Science from Yazd University (1993-1998).
Experience š¼
Mahsa has served as an Assistant Professor in the Departments of Material Engineering and Civil Engineering at Islamic Azad University (2000-2019) and has held various teaching roles in physics, mechanics, and material analysis. Currently, she is an Associate Professor in the Physics Department at Central Tehran Branch.
Awards and Honors š
Mahsa received the First Rank of Top Researcher in Islamic Azad University, Iran, in 2020, highlighting her research excellence. Her work has been recognized in various academic circles, reflecting her commitment to advancing scientific knowledge.
Research Focus š¬
Mahsa’s research focuses on solid-state physics and nanostructures, including the design and fabrication of nano-sculptured thin films and their properties. She employs theoretical and experimental methods to explore optical, electrical, and mechanical characteristics of advanced materials.
Publications Top Notes:
- Nano-structure and Optical Properties (Plasmonic) of Graded Helical Square Tower-like (Terraced) Mn Sculptured Thin Films
- Journal: Applied Surface Science
- Year: 2017
- Cited by: 23
- Electromagnetic Wave Absorption Properties of MWCNTs-COOH/Cement Composites with Different Shapes of Chiral, Armchair, and Zigzag
- Journal: Fullerenes, Nanotubes and Carbon Nanostructures
- Year: 2021
- Cited by: 17
- Effect of Temperature on Bioleaching of Iron Impurities from Kaolin by Aspergillus Niger Fungal
- Journal: Journal of Asian Ceramic Societies
- Year: 2019
- Cited by: 16
- Engineering Mn as Tetragonal-like Helical Sculptured Thin Film for Broadband Absorption
- Journal: Plasmonics
- Year: 2016
- Cited by: 9
- Self-Cleaning Surfaces with Superhydrophobicity of AgāTiO2 Nanofilms on the Floor Ceramic Tiles
- Journal: Glass Physics and Chemistry
- Year: 2022
- Cited by: 8
- The Energy Band Gap of the Manganese Oxide Pyramidal Nanostructures
- Journal: Journal of Modern Optics
- Year: 2022
- Cited by: 7
- Fabrication of Al Zigzag Thin Films and Evaluation of Mechanical and Hydrophobic Properties
- Journal: Applied Physics A
- Year: 2020
- Cited by: 7
- Fabrication and Characterization of Al/Glass Zig-Zag Thin Film, Comparing to the Discrete Dipole Approximation Results
- Journal: The European Physical Journal B
- Year: 2020
- Cited by: 7
- Effect of Three MWCNTs-COOH (Chiral, Zigzag, and Armchair) on the Mechanical Properties and Water Absorption of Cement-based Composites
- Journal: Fullerenes, Nanotubes and Carbon Nanostructures
- Year: 2023
- Cited by: 6
- Electrical Characterization of Zig-Zag Aluminum Thin Films Using Experimental and Theoretical Methods
- Journal: Journal of Optoelectronical Nanostructures
- Year: 2021
- Cited by: 5
š Conclusion
Dr. Mahsa Fakharpour exemplifies the qualities of an outstanding researcher with her extensive publication record, innovative research projects, and recognized contributions to the field of nano-physics and materials science. Her strengths position her as a strong candidate for the Best Researcher Award. Addressing areas for improvement, such as expanding her research scope and enhancing public engagement, could further amplify her impact in the scientific community. Her continued dedication to research and academic excellence will undoubtedly contribute to advancing knowledge and addressing societal challenges in the future.