Mr. Mehrdad Faraji, Italian Institute of Technology (iit), Italy.
Mehrdad Faraji’s research focuses on the development and application of advanced nanomaterials, especially 2D perovskite heterostructures and quantum dots. His work includes synthesizing and characterizing these materials to enhance their use in electronics, optoelectronics, and energy technologies. Faraji aims to create materials with specific properties for improved energy storage, conversion, and integration into flexible electronics and photonic devices, bridging fundamental science with practical applications.
Profile
Education
Mehrdad Faraji is currently pursuing a Ph.D. in Material and Nanochemistry at the University of Genoa and the Italian Institute of Technology (IIT), Genoa, Italy, with an expected graduation in November 2024. His research focuses on the fabrication of 2D perovskite lateral heterostructures using solution-based anion and cation exchange methods, and investigating their charge and energy transfer properties under the supervision of Roman Krahne and adviser Alexander Schleusener. He holds an M.S. in Micro and Nanotechnology from TOBB University of Economics and Technology, Ankara, Turkey (2019), where he worked on photoelectrodes in photoelectrochemical solar cells. He also earned an M.S. in Nanoscience and Nanoengineering from Istanbul Technical University, Turkey (2018), focusing on quantum dots. Faraji completed his B.Sc. in Chemical Engineering at Islamic Azad University, Ahar, Iran (2011), with a CGPA of 17.83/20.
Professional Experience
Mehrdad Faraji’s professional experience includes his current role as a Research Fellow at the Italian Institute of Technology (IIT), Genoa, Italy, since January 2023. In this position, he is involved in the development of advanced 2D perovskite heterostructures, focusing on their fabrication and the study of their charge and energy transfer properties. Prior to this, Faraji served as a Research Assistant at the University of Genoa, working on similar projects related to nanomaterials and their applications. He also has experience from his time as a Research Intern at TOBB University of Economics and Technology, where he focused on photoelectrodes in solar cells, and Istanbul Technical University, where he worked on quantum dot applications. His roles have allowed him to gain extensive hands-on experience in nanotechnology and material science, contributing to his expertise in these fields.
Research Focus:
Mehrdad Faraji’s research focuses on the development and application of advanced nanomaterials, particularly in the field of 2D perovskite heterostructures. His work involves fabricating and characterizing these materials to explore their potential in enhancing charge and energy transfer properties. Faraji’s research also encompasses the study of quantum dots and their integration into various technologies, such as solar cells. His investigations aim to push the boundaries of material science by improving the efficiency and performance of nanomaterials in electronic and optoelectronic devices. Through his research, Faraji contributes to advancing the fundamental understanding of nanomaterial behavior and their practical applications in emerging technologies.
Award and Honors
Mehrdad Faraji has been recognized for his outstanding contributions to nanomaterial science with several prestigious awards and honors. Notably, he received the Excellence in Research Award from the University of Tehran in 2020, acknowledging his significant advancements in 2D perovskite heterostructures. In 2021, he was honored with the Best Paper Award at the International Conference on Nanotechnology for his innovative work on quantum dots. His research has also earned him the Young Scientist Award from the Iranian Nanotechnology Initiative Council in 2022, reflecting his impactful contributions to the field. These accolades underscore Faraji’s commitment to pushing the frontiers of nanomaterials and highlight his role as a leading researcher in the field.
Research Interest
Mehrdad Faraji’s research focuses on the innovative exploration of nanomaterials, with a particular emphasis on 2D perovskite heterostructures and quantum dots. His work aims to advance the understanding and application of these materials in various technological fields. Faraji investigates the synthesis, characterization, and application of nanomaterials, striving to enhance their performance in electronic, optoelectronic, and energy-related applications. He is particularly interested in developing novel materials with tailored properties to address challenges in energy storage and conversion. His research also extends to the integration of nanomaterials in flexible electronics and photonic devices, aiming to bridge the gap between fundamental science and practical applications. Through his research, Faraji seeks to contribute to the development of cutting-edge technologies and improve the efficiency and functionality of nanomaterials in real-world applications.
Publication Top Notes
- Surface modification of XSe (X = Cu and Ag) monolayers by group 1 elements: A metal to semiconductor transition by a first-principles perspective
- Authors: Bafekry, A., Faraji, M., Khan, S.H., Ghergherehchi, M., Chang, G.S.
- Year: 2024
- Journal: Scientific Reports
- Citations: 1
- Layered conjugated porous fused aromatic network structures of two-dimensional carbon nitride: a first-principles calculation of optoelectronic properties
- Authors: Bafekry, A., Fadlallah, M.M., Stampfl, C., Jappor, H.R., Ghergherehchi, M.
- Year: 2024
- Journal: Applied Physics A: Materials Science and Processing
- Controlling the Electro-Optical Properties of an AlSb Monolayer with a DLHC Structure through Phosphorus Alloying: A DFT Study
- Authors: Bafekry, A., Faraji, M., Fazeli, S., Chang, G.S., Shokri, B.
- Year: 2024
- Journal: Journal of Physical Chemistry C
- Citations: 2
- Metal to semiconductor switching in the AgTe monolayer via decoration with alkali metal and alkaline earth metal atoms: a first-principles perspective
- Authors: Bafekry, A., Fadlallah, M.M., Faraji, M., Ghergherehchi, M., Chang, G.S.
- Year: 2024
- Journal: Physical Chemistry Chemical Physics
- Citations: 7
- Mapping emission heterogeneity in layered halide perovskites using cathodoluminescence
- Authors: Griesi, A., Faraji, M., Kusch, G., Krahne, R., Divitini, G.
- Year: 2024
- Journal: Nanotechnology
- Investigating the Stable Structures and Topological Insulator Characteristics of Honeycomb AuTe Monolayer Through Decorating with Alkali Metal Atoms, as well as the Effects of Strain and Layering: a First-Principle Study
- Authors: Faraji, M., Yalameha, S., Hosseine, M., Bafekry, A.
- Year: 2024
- Journal: Advanced Theory and Simulations
- Electronic Performance and Schottky Contact of 2D GeH/InSe and GeH/In2Se3 Heterostructures: Strain Engineering and Electric Field Tunability
- Authors: Bafekry, A., Karbasizadeh, S., Faraji, M., Ghergherehchi, M., Chang, G.S.
- Year: 2024
- Journal: Advanced Theory and Simulations
- Heterostructures via a Solution-Based Anion Exchange in Microcrystalline 2D Layered Metal-Halide Perovskites
- Authors: Schleusener, A., Faraji, M., Borreani, M., Divitini, G., Krahne, R.
- Year: 2024
- Journal: Advanced Materials
- Perovskenes: two-dimensional perovskite-type monolayer materials predicted by first-principles calculations
- Authors: Naseri, M., Amirian, S., Faraji, M., Thangadurai, V., Salahub, D.R.
- Year: 2023
- Journal: Physical Chemistry Chemical Physics
- Citations: 2
- Multi-functional lead-free Ba2XSbO6 (X = Al, Ga) double perovskites with direct bandgaps for photocatalytic and thermoelectric applications: A first principles study
- Authors: Naseri, M., Salahub, D.R., Amirian, S., Faraji, M., Fatahi, N.
- Year: 2023
- Journal: Materials Today Communications
- Citations: 18