Dr. Chadha Henchiri | Experimental methods | Member
PHD at University of Sfax, Tunisia
Chadha Henchiri, a Tunisian physicist born on September 19, 1993, specializes in Materials Science with a keen interest in Magnetism and Dielectrics. She obtained her doctoral thesis from the University of Sfax under the supervision of Pr. E. Dhahri. With a solid foundation in physics from the University of Gafsa, Chadha has showcased her expertise through publications in esteemed journals and active participation in scientific events. She possesses a diverse skill set in synthesis methodologies, experimental design, and data analysis. Currently serving as an Assistant Teacher at the Preparatory Institute for Engineering Studies of Gafsa, Chadha continues to contribute significantly to her field.
Professional Profiles:
Education
Doctoral Thesis: Physics – Material physics University: University of Sfax Supervisor: Pr. E. Dhahri Research Master’s Degree: Physics – Materials Physics and Energy Management University: University of Gafsa Supervisor: Pr. E. Dhahri Fundamental License: Physics University: University of Gafsa
Professional Experiences
Chadha Henchiri has served as a temporary assistant at the Faculty of Science of Gafsa and currently holds the position of Assistant Teacher at the Preparatory Institute for Engineering Studies of Gafsa.
Research Experiences / Skills
Chadha Henchiri possesses expertise in various synthesis methodologies, experimental designs, instrument handling, and characterization techniques, including crystal structure analysis, surface morphology examination, thermal analysis, and magnetic property analysis. She is proficient in several research packages and software for data analysis and interpretation.
Area of Research Interests
Chadha Henchiri’s primary interest lies in Materials Science, with a focus on Magnetism, Dielectrics, and the modulation of magnetic properties using MATLAB software. She is enthusiastic about engaging in challenging fields of physics and delivering her best efforts.
Research Focus:
Chadha Henchiri’s research focuses primarily on the structural and magnetic properties of various materials, particularly manganites and spinel ferrites. Her work delves into understanding the intricate relationships between structural characteristics and magnetic behavior, with a particular emphasis on magnetocaloric effects at room temperature. Through theoretical studies and experimental investigations, Chadha has contributed significantly to the understanding of magnetocaloric phenomena in lanthanum manganite lacunar compounds and CoFeCuO4 spinel ferrite nanoparticles. Her research not only advances the fundamental understanding of these materials but also holds promise for potential applications in areas such as energy conversion and magnetic refrigeration.
Publications
- Structural, dielectric, electrical and modulus spectroscopic characteristics of CoFeCuO4 spinel ferrite nanoparticles, cited by: 31, Publication date: 2021.
- Structural and magnetic properties of La1-x⎕xMnO3 (x = 0.1; 0.2 and 0.3) manganites, cited by: 18, Publication date: 2019.
- Structural study and large magnetocaloric entropy change at room temperature of La 1− x□ x MnO 3 compounds, cited by: 14, Publication date: 2020.
- Theoretical study of the magnetic properties and the magnetocaloric effect in lanthanum manganite lacunar compounds, cited by: 8, Publication date: 2022.
- Study of structural properties and conduction mechanisms of La0. 67Ca0. 2Ba0. 13Fe0. 97Ti0. 03O3 perovskite, cited by: 6, Publication date: 2022.
- Study of structural, magnetic, magnetocaloric properties and critical behavior of CoFeCuO4 spinel ferrite, cited by: 6, Publication date: 2021.
- Landau mean-field analysis and estimation of the spontaneous magnetization from magnetic entropy change, cited by: 5, Publication date: 2021.
- Modeling the Magnetocaloric Effect of La0.8MnO3 by the Mean-Field Theory, cited by: 4, Publication date: 2020.
- Theoretical study of magnetic and magnetocaloric properties and MCE modeling by the mean-field theory in CoFeCuO4 spinel ferrite, cited by: 2, Publication date: 2022.
- Correlation between electronic and magnetic properties of LaMnO 3-δ: experimental study and DFT-MBJ calculation, Publication date: 2024.
.