M. Mazroui

1.2k total citations
76 papers, 995 citations indexed

About

M. Mazroui is a scholar working on Atomic and Molecular Physics, and Optics, Materials Chemistry and Mechanical Engineering. According to data from OpenAlex, M. Mazroui has authored 76 papers receiving a total of 995 indexed citations (citations by other indexed papers that have themselves been cited), including 32 papers in Atomic and Molecular Physics, and Optics, 30 papers in Materials Chemistry and 20 papers in Mechanical Engineering. Recurrent topics in M. Mazroui's work include nanoparticles nucleation surface interactions (18 papers), Surface and Thin Film Phenomena (15 papers) and Material Dynamics and Properties (13 papers). M. Mazroui is often cited by papers focused on nanoparticles nucleation surface interactions (18 papers), Surface and Thin Film Phenomena (15 papers) and Material Dynamics and Properties (13 papers). M. Mazroui collaborates with scholars based in Morocco, France and Algeria. M. Mazroui's co-authors include Y. Boughaleb, A. Hasnaoui, K. Saadouni, K. Sbiaai, Adil Eddiai, Mounir Meddad, Riccardo Ferrando, Youssef Lachtioui, Michaël Badawi and Abdelkader Kara and has published in prestigious journals such as Chemical Physics Letters, Surface Science and Journal of Alloys and Compounds.

In The Last Decade

M. Mazroui

74 papers receiving 978 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
M. Mazroui Morocco 20 404 389 224 189 162 76 995
Katsuhiro Sasaki Japan 21 556 1.4× 233 0.6× 207 0.9× 172 0.9× 112 0.7× 108 1.3k
Lihong Liang China 19 617 1.5× 168 0.4× 124 0.6× 192 1.0× 231 1.4× 65 1.1k
Z. Q. Hu China 25 1.2k 2.9× 1.4k 3.5× 128 0.6× 159 0.8× 166 1.0× 127 2.1k
R. L. Martens United States 13 602 1.5× 815 2.1× 217 1.0× 279 1.5× 125 0.8× 25 1.5k
Taichi Abe Japan 22 888 2.2× 940 2.4× 239 1.1× 122 0.6× 60 0.4× 82 1.6k
Yu. I. Golovin Russia 17 644 1.6× 530 1.4× 142 0.6× 243 1.3× 85 0.5× 159 1.6k
Yu. Kaganovskii Israel 16 352 0.9× 147 0.4× 148 0.7× 195 1.0× 81 0.5× 67 742
Chongde Cao China 22 823 2.0× 919 2.4× 125 0.6× 361 1.9× 77 0.5× 114 1.7k
Mitsuhiro Hasebe Japan 28 881 2.2× 1.4k 3.7× 219 1.0× 152 0.8× 94 0.6× 87 2.0k
Fang‐Qiu Zu China 25 1.7k 4.2× 1.1k 2.9× 96 0.4× 87 0.5× 67 0.4× 126 2.2k

Countries citing papers authored by M. Mazroui

Since Specialization
Citations

This map shows the geographic impact of M. Mazroui's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by M. Mazroui with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites M. Mazroui more than expected).

Fields of papers citing papers by M. Mazroui

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by M. Mazroui. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by M. Mazroui. The network helps show where M. Mazroui may publish in the future.

Co-authorship network of co-authors of M. Mazroui

This figure shows the co-authorship network connecting the top 25 collaborators of M. Mazroui. A scholar is included among the top collaborators of M. Mazroui based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with M. Mazroui. M. Mazroui is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Ichou, Mohamed, et al.. (2025). Strengthening mechanisms and deformation behavior of Au/Ag bilayer using nanoindentation. Solid State Communications. 397. 115844–115844. 3 indexed citations
2.
Kara, Abdelkader, et al.. (2025). Adsorption of benzene on pristine, and doped Cu stepped surfaces: A DFT study. Surface Science. 757. 122741–122741.
3.
Mazroui, M., et al.. (2025). Growth of Al–Cu compound thin film on Si substrate: Molecular dynamics simulation. Micro and Nanostructures. 200. 208098–208098.
4.
Mazroui, M., et al.. (2024). Effect of deposition rate and annealing on Nb thin film growth on Cu substrate: Molecular dynamics simulation. Vacuum. 229. 113548–113548. 5 indexed citations
5.
Eddiai, Adil, et al.. (2024). Cu thin film growth on stepped Si substrate: Effects of incident energy and thermal annealing. Journal of Crystal Growth. 637-638. 127739–127739. 5 indexed citations
6.
Saadouni, K., et al.. (2023). NiAl (0 0 1) terminated surface effect on the growth of the Al thin film. Computational Materials Science. 222. 112117–112117. 9 indexed citations
7.
Eddiai, Adil, et al.. (2023). Effect of stepped Si (001) substrate on Cu thin film growth. Surface Topography Metrology and Properties. 11(3). 35020–35020. 7 indexed citations
8.
Chakhchaoui, Nabil, et al.. (2023). Flexible piezoelectric nanocomposites based on PVDF-HFP/PLA blend doped PZT. IOP Conference Series Materials Science and Engineering. 1266(1). 12004–12004. 1 indexed citations
9.
Badawi, Michaël, et al.. (2023). Insight into the effect of alloying on the adsorption of benzene on Ag(100) surface: DFT calculations. Surface Science. 734. 122321–122321. 6 indexed citations
10.
Saadouni, K., et al.. (2022). Growth and annealing effect on the Cu thin film deposited on Si (0 0 1) surface. Journal of Crystal Growth. 586. 126631–126631. 20 indexed citations
11.
Lachtioui, Youssef, et al.. (2020). Glass formation and structure evolution in the rapidly solidified monatomic metallic liquid Pt under high pressure. Chemical Physics. 538. 110805–110805. 17 indexed citations
12.
Eddiai, Adil, et al.. (2019). Electromechanical losses evaluation by energy-efficient method using the electrostrictive composites: experiments and modeling. Smart Materials and Structures. 28(3). 35024–35024. 12 indexed citations
13.
Hasnaoui, A., et al.. (2018). Short and medium-range orders in Co3Al metallic glass. Chemical Physics. 513. 58–66. 20 indexed citations
14.
Mazroui, M., et al.. (2018). Microstructural evolutions and fractal characteristics in medium range level in AlxNi100-x alloys during rapid solidification process. Journal of Alloys and Compounds. 744. 750–758. 17 indexed citations
15.
Mazroui, M., et al.. (2018). Diffusion and adsorption of dimers on reconstructed Pt(1 1 0) surfaces: First principle and EAM studies. Chemical Physics. 502. 96–101. 2 indexed citations
16.
Rguiti, Mohamed, et al.. (2018). Evaluation of performance of polyamide/lead zirconate titanate composite for energy harvesters and actuators. Journal of Composite Materials. 53(3). 345–352. 20 indexed citations
17.
Mazroui, M., et al.. (2017). Static investigation of adsorption and hetero‐diffusion of copper, silver, and gold adatoms on the (111) surface. Surface and Interface Analysis. 49(8). 705–711. 15 indexed citations
18.
Sbiaai, K., et al.. (2017). Ehrlich–Schwöbel barriers and adsorption of Au, Cu and Ag stepped (100) surfaces. Modern Physics Letters B. 31(5). 1750037–1750037. 7 indexed citations
19.
Mazroui, M., et al.. (2016). Molecular dynamics study of atomic-level structure in monatomic metallic glass. Journal of Non-Crystalline Solids. 443. 136–142. 66 indexed citations
20.
Belhora, Fouad, Abdеlowahеd Hajjaji, Minh‐Quyen Le, et al.. (2014). Combination of electrostrictive polymers composites and electrets for energy harvesting capability. Polymers for Advanced Technologies. 25(9). 969–974. 7 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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