Dr. Maryam Nasehnejad | Thin films | Women Researcher Award

Profile Summary

Maryam Nasehnejad, a Ph.D. graduate in Solid State Physics from Arak University, Iran, focuses on thin film physics and materials science. With expertise in electrodeposition, AFM dynamic studies, and fractal analysis, her research explores the morphology, structure, and properties of electrodeposited metal films. Her work delves into magnetic anisotropy, giant magnetoresistance, and the relationship between surface roughness and magnetic behavior in thin films. Through collaborations, she aims to advance our understanding of nanostructured materials for applications spanning magnetic recording, sensors, and nanoelectronics. With a citation count of 117 and an h-index of 6, her contributions significantly impact the field.

Professional Profiles

Education:

PhD in Solid State Physics, Arak University, Iran, 2017

Professional Skills:

Electrodeposition, Dynamic studies of surface roughness of thin films using Atomic Force Microscope (AFM), Growth and studies of morphology and physical properties of nanocrystalline materials, Fractal and multifractal analysis of thin films, Magnetic anisotropy properties of thin films, Magnetic properties and giant magnetoresistance of thin films, Simulation of the growth of thin films by electroplating using DLA model, Simulation of multiphase and nanostructured systems using MATLAB software, Computational methods for investigating nanoscale behavior of thin film surfaces

Research Focus:

The research focus of Maryam Nasehnejad and her collaborators encompasses a broad range of topics in thin film physics and materials science. Their work primarily investigates the morphology, structure, and properties of electrodeposited metal films, particularly silver and cobalt-silver alloys, using techniques such as atomic force microscopy (AFM), dynamic scaling analysis, and fractal characterization. Additionally, they explore the relationship between surface roughness and magnetic properties in thin films. Through their comprehensive studies, they aim to deepen our understanding of nanostructured materials and their potential applications in various fields, including magnetic recording, sensor technology, and nanoelectronics.

Google Scholar Metrics:

All Time:
- Citations: 117
- h-index: 6
- i10-index: 5
Since 2018:
- Citations: 99
- h-index: 5
- i10-index: 4

Top Noted Publication

Atomic force microscopy study, kinetic roughening and multifractal analysis of electrodeposited silver films
- Authors: M. Nasehnejad, M. Gholipour Shahraki, G. Nabiyouni
- Journal: Applied Surface Science
- Volume: 389
- Pages: 735–741
- Year: 2016

Dynamic scaling study of nanostructured silver films
- Authors: M. Nasehnejad, G. Nabiyouni, M. Gholipour Shahraki
- Journal: Physics D: Applied Physics
- Volume: 50
- Article Number: 375301
- Year: 2017

Thin film growth by 3D multi-particle diffusion limited aggregation model: anomalous roughening and fractal analysis
- Authors: Maryam Nasehnejad, Mehran Gholipour Shahraki, Gholamreza Nabiyouni
- Journal: Physica A
- Volume: 493
- Pages: 135–147
- Year: 2018

Morphological characterization and microstructure of silver films prepared by electrodeposition method
- Authors: Maryam Nasehnejad, Gholamreza Nabiyouni, Mehran Gholipour Shahraki
- Journal: Surface Engineering
- Volume: 33
- Pages: 389-394
- Year: 2016

Fractal Analysis of Nanostructured Silver Film Surface
- Authors: M. Nasehnejad, G. Nabiyouni, M. Gholipour Shahraki
- Journal: Chinese Journal of Physics
- Volume: 55
- Pages: 2484–2490
- Year: 2017

Conventional and fractal analyses and nanoscale behavior studies of electrodeposited silver films
- Authors: M. Nasehnejad, G. Nabiyouni, M. Gholipour Shahraki
- Journal: Physica B: Condensed Matter
- Volume: 548
- Pages: 46–52
- Year: 2018

Studying magnetic properties and surface roughness evolution of Ag-Co electrodeposited films
- Authors: Maryam Nasehnejad, Gholamreza Nabiyouni
- Journal: Journal of Magnetism and Magnetic Materials
- Volume: 490
- Article Number: 165501
- Year: 2019

Structure, magnetic properties and giant magnetoresistance of granular cobalt–silver films
- Authors: Maryam Nasehnejad, Gholamreza Nabiyouni
- Journal: Applied Physics A
- Volume: 128
- Page: 162
- Year: 2022

Structure and size effects in the magnetic anisotropy factors of Co-Ag nano granular films
- Authors: Mehrdad Ahmadi, Maryam Nasehnejad
- Journal: Colloid & Nanoscience Journal
- Volume: 1
- Pages: 11-21
- Year: 2023

Influence of composition on the structural, magnetic and magnetotransport properties of nanostructured Co-Ag films fabricated by electrodeposition technique
- Authors: Mehrdad Ahmadi, Maryam Nasehnejad
- Journal: Journal of Magnetism and Magnetic Materials
- Volume: 589
- Article Number: 171568
- Year: 2024

Morphological and multifractal studies of nanocrystalline Au films
- Authors: Mehrdad Ahmadi, Maryam Nasehnejad
- Journal: Progress in Physics of Applied Materials
- Volume: 4
- Pages: 27-35
- Year: 2024

Role of substrate on the fractal characteristics of nanostructure surfaces of electrodeposited nickel thin films
- Authors: Maryam Nasehnejad, Gholamreza Nabiyouni
- Journal: Physics of the Solid State
- Status: Accepted
- Year: 2024

Morphology and structure of electrodeposited nanoscale Ag thin films: Dynamic scaling behavior
- Authors: Mehrdad Ahmadi, Maryam Nasehnejad
- Journal: Nanostructure
- Status: Accepted
- Year: 2024

Relationship between roughness and magnetic properties of thin film
- Authors: M. Nasehnejad
- Conference: Zoominar on Stemio’s Magnetism and Magnetic Materials (SMMM-2021)
- Location: Singapore
- Year: 2021

Surface roughening and nanoscale behavior of electrodeposited silver thin films
- Authors: M. Gholipour Shahraki, M. Nasehnejad, G. Nabiyouni
- Conference: International Conference on Material Sciences and Nanomaterials
- Location: Barcelona, Spain
- Year: 2017

Maryam Nasehnejad | Thin films | Women Researcher Award