Hershey, Pennsylvania
New York, New YorkBeijing, China

Assia Mabrouk

Assia Mabrouk , PhD, is a luminary in the realm of materials physics, heralding from a distinguished academic background and a profound commitment to scientific inquiry. Her journey began with a steadfast pursuit of knowledge culminating in a Ph.D. in Materials Physics from the esteemed University of Orléans, France, in 2017. Following the completion of her doctoral studies, Assia embarked on a transformative journey at CEA Cadarache in France, where she honed her expertise in a cutting-edge project focused on the development of a potentiometric probe to measure oxygen in sodium. Her tenure at CEA Cadarache, spanning until 2019, was marked by a relentless pursuit of excellence and a deep-seated passion for pushing the boundaries of scientific innovation. Currently serving as a professor at Ibnou Zohr University in Morocco, Assia Mabrouk continues to leave an indelible mark on the landscape of materials science. Her primary research interests lie in the synthesis, structural characterization, and mechanical properties of glasses and ceramics, areas that hold immense promise for technological advancement and industrial applications. As a scholar, Assia's work represents the intersection of rigorous scientific inquiry and real-world impact. Through her groundbreaking research, she seeks to unravel the mysteries of material behavior and unlock the potential for transformative technological solutions. Her contributions not only advance our understanding of fundamental scientific principles but also hold the key to addressing pressing societal challenges. Beyond her remarkable achievements in academia, Assia Mabrouk is a beacon of inspiration for aspiring scientists and researchers, embodying the values of intellectual curiosity, perseverance, and innovation. Her unwavering commitment to pushing the boundaries of knowledge serves as a guiding light for future generations, inspiring them to dream big and pursue their passions with unwavering determination. In the ever-evolving landscape of materials science, Assia Mabrouk stands as a testament to the power of intellect, dedication, and the unyielding pursuit of excellence. Her journey serves as a reminder that through curiosity and perseverance, we have the ability to unlock the secrets of the universe and shape the course of human progress.

Publications

Innovative Materials for Industrial Applications: Synthesis, Characterization and Evaluation
Innovative Materials for Industrial Applications: Synthesis, Characterization and Evaluation
Assia Mabrouk, Ahmed Bachar, Seitkhan Azat, Rachid Amrousse. © 2025. 508 pages.
The exploration of innovative materials for industrial applications advance technology and engineering while driving improvements across various sectors. This process involves...
Innovative Materials for Environmental and Aerospace Applications
Innovative Materials for Environmental and Aerospace Applications
Rachid Amrousse, Ahmed Bachar, Assia Mabrouk, Seitkhan Azat. © 2025. 584 pages.
In settings where environmentally friendly practices and policies are prioritized, sustainability and technological progress thrive, making it essential to study and evaluate...
Model Matrices for Nuclear Waste Storage: Structure, Characterization, and Mechanical Properties
Model Matrices for Nuclear Waste Storage: Structure, Characterization, and Mechanical Properties
Assia Mabrouk, Ahmed Bachar, Aurélien Canizarès, Yann Vaills, Stuart Hampshire. © 2025. 36 pages.
Glasses enriched with rare earth elements hold significant promise for nuclear waste storage, especially for immobilizing high-level waste (HLW) containing minor actinides. This...
New Generation of Glass Materials for Biomedical Applications: Properties, Structure, Bioactivity, and Viability
New Generation of Glass Materials for Biomedical Applications: Properties, Structure, Bioactivity, and Viability
Ahmed Bachar, Assia Mabrouk, Cyrille Mercier, Claudine Follet, Franck Bouchart, Arnaud Tricoteaux, Stuart Hampshire. © 2025. 38 pages.
The limited strength of bioglasses has confined their application to non-load-bearing contexts, thus necessitating enhancements in their mechanical properties. A viable approach...
Sol-Gel Synthesis of a New Composition of Bioactive Glass
Sol-Gel Synthesis of a New Composition of Bioactive Glass
Halima El Bouami, Assia Mabrouk, Cyrille Mercier, Claudine Follet, Ahmed Bachar. © 2025. 22 pages.
Bioactive glasses hold immense promise for tissue engineering and bone regeneration due to their ability to bond with living tissues and stimulate bone growth. This chapter...
Effects of Lanthanum on Structure of Sodium Borosilicate Glasses
Effects of Lanthanum on Structure of Sodium Borosilicate Glasses
Meriem Ben Zennou, Ahmed Bachar, Assia Mabrouk. © 2025. 40 pages.
Nuclear waste management poses a significant challenge in contemporary society, necessitating innovative approaches for confinement and characterization. This chapter addresses...
Nanosized Catalytic Particles for the Decomposition of Green Propellants as Substitute for Hydrazine: Application of Catalysis and Nanocatalysis in Green Propulsion
Nanosized Catalytic Particles for the Decomposition of Green Propellants as Substitute for Hydrazine: Application of Catalysis and Nanocatalysis in Green Propulsion
Rachid Amrousse, Abderrahim Najah Elidrissi, Ahmed Bachar, Assia Mabrouk, Kainaubek Toshtay, Seitkhan Azat. © 2024. 23 pages.
In the current chapter, the synthesis of nanosized catalytic particles posed a significant challenge, aimed at facilitating the thermal decomposition of various green...
Corrosion in Space: Challenging Projects to Protect Materials Used in Space Exploration
Corrosion in Space: Challenging Projects to Protect Materials Used in Space Exploration
Rachid Amrousse, Hajar Jabri, Zakaria Harimech, Ahmed Bachar, Assia Mabrouk, Nabil Souhair, Seitkhan Azat. © 2024. 18 pages.
Corrosion poses a significant challenge to materials utilized in space exploration and propulsion systems. The harsh environmental conditions present in space, including extreme...