Dr. Abdallah Aissa | Inorganic Chemistry | Best Researcher Award
Dr. Abdallah Aissa | Jeddah University | Tunisia
Dr. Abdallah Aissa is a Tunisian scholar specializing in inorganic chemistry with a fine focus on nanomaterials and crystallography. He earned his bachelor’s degree in physics and chemistry, followed by a master’s and a PhD in inorganic chemistry from the Faculty of Sciences, Monastir University, Tunisia, where his doctoral work centered on cationic substitutions in fluorapatite using advanced spectroscopic and structural techniques. With a distinguished academic career, he has served as Assistant Professor at multiple institutions including the University of Jeddah, the Northern Border University in Saudi Arabia, and universities in Tunisia such as Monastir, Sfax, and Gafsa. His teaching portfolio spans general, inorganic, physical, industrial, and analytical chemistry, along with applied fields such as recycling, environmental protection, and 3D printing technologies. Dr. Aissa has authored over thirty research papers in high-impact journals, making notable contributions to hydroxyapatite modification, heavy metal remediation, nanomaterials development, and crystallographic studies, reflecting both scientific depth and applied innovation.
Publication Profile
Scopus
Education
Dr. Abdallah Aissa pursued his higher education in Tunisia, beginning with a bachelor’s degree in physics and chemistry from the Faculty of Sciences at Monastir University, where he built a strong foundation in fundamental sciences. He advanced his academic journey with a master’s degree in inorganic chemistry at the same institution, focusing his research on the physico-chemical and structural studies of cationic substitutions in fluorapatite. This specialization marked the beginning of his deep engagement with crystallographic and spectroscopic methods. To further strengthen his expertise, Dr. Aissa completed his doctoral studies in inorganic chemistry at the Faculty of Sciences, Monastir University, where his research made a significant contribution to the understanding of cationic substitutions in fluorapatite using advanced techniques such as X-ray diffraction, nuclear magnetic resonance spectroscopy, infrared analysis, and Raman spectroscopy. His educational background laid the groundwork for his future achievements in nanomaterials, crystallography, and applied inorganic chemistry research.
Teaching Experience
Dr. Abdallah Aissa has built a distinguished teaching career across Tunisia and Saudi Arabia, reflecting his expertise in inorganic chemistry, nanomaterials, and crystallography. Currently serving as Assistant Professor at the University of Jeddah, he has taught a wide range of courses, including general, inorganic, physical, industrial, and analytical chemistry, while also contributing to applied programs such as 3D printing technology, recycling, and environmental protection. Earlier, he worked as an instructor at the King Abdulaziz and his Companions Foundation for Giftedness and Creativity “Mawhiba,” nurturing scientific talent. At the Northern Border University in Arar, he taught general and inorganic chemistry along with advanced physical chemistry topics such as thermodynamics, kinetics, and quantum chemistry. His teaching journey began in Tunisia, where he held academic positions at Monastir and Sfax Preparatory Engineering Institutes, and at the University of Gafsa, guiding students in atomistic theory, crystallography, thermodynamics, kinetics, equilibrium, and redox chemistry. His teaching record demonstrates depth, versatility, and dedication to scientific education.
Research Focus
Dr. Abdallah Aissa’s research focus lies primarily in the field of inorganic chemistry with specialized expertise in nanomaterials, crystallography, and applied surface science. His studies explore the structural, physico-chemical, and catalytic properties of hydroxyapatites, fluorapatites, and related nanostructured materials, with applications in environmental remediation, biomedical engineering, and industrial catalysis. He has contributed significantly to the modification of hydroxyapatite for heavy metal removal, the development of advanced catalytic systems for pollutant degradation, and the synthesis of functionalized nanomaterials with enhanced properties. His work often integrates advanced characterization methods such as X-ray diffraction, nuclear magnetic resonance, infrared, and Raman spectroscopy to investigate material structures at the atomic and molecular levels. By bridging fundamental inorganic chemistry with applied nanotechnology, Dr. Aissa’s research addresses global challenges in environmental protection, sustainable chemistry, and advanced material design, positioning his expertise within the intersection of nanomaterials, environmental chemistry, and industrial applications.
Publication Top Notes
Hydroxyapatite (HAp) Derived from Bonefish Used for Heavy Metal Removal
Year: 2025
Enhancing Triclosan (TCS) Oxidation with Ag-Modified Fe/TiO2 Catalyst in the Presence of H2O2
Year: 2025
Structure, dielectric, and ferroelectric properties of (1-x)Bi0.5Na0.5TiO3 – X K0.5Na0.5NbO3 (0 ≤ x ≤ 0.1) solid solution
Year: 2023
Heavy Metals Removal Using Nano‐Hydroxyapatite Extracted from Cattle Bones
Year: 2023
Structural refinement and antimicrobial activity of aluminum oxide nanoparticles
Year: 2022
Optimization of biocatalytic steps via response surface methodology to produce immobilized peroxidase on chitosan-decorated AZT composites for enhanced reusability and storage
Year: 2022
Conclusion
Dr. Abdallah Aissa exemplifies a strong research trajectory in inorganic chemistry and nanomaterials, combining teaching, high-quality publications, and innovative experimentation. His work demonstrates both theoretical depth and practical applications, particularly in hydroxyapatite and heavy metal remediation. While enhancing international visibility and cross-disciplinary collaborations could further elevate his profile, his current contributions reflect sustained research excellence and impactful knowledge generation. Overall, Dr. Aissa is a highly suitable candidate for the Research for Best Researcher Award, reflecting merit, innovation, and commitment to scientific advancement.