Dr. Hamza Kahri | AI in Healthcare | Best Researcher Award
Researcher | Tours University | France
Dr. Hamza Kahri is a highly accomplished chemist specializing in materials chemistry, with a focus on the development of Metal-Organic Frameworks (MOFs), nanomaterials, and their applications in energy storage, CO2 capture, hydrogen storage, and catalysis. Through extensive research during his PhD and postdoctoral studies, Dr. Kahri has authored over 27 peer-reviewed journal articles and actively contributed to the scientific community through teaching, supervising graduate students, and reviewing for leading chemistry journals. His interdisciplinary expertise and collaborative projects have solidified his standing as an innovator in the field.
Profile
Education
Dr. Kahri’s academic journey began at the University of Monastir, Tunisia, where he earned a BSc in Chemistry in 2011, followed by an MSc in Chemistry specializing in Electrochemistry in 2013. He completed his PhD in Materials Chemistry in 2017, focusing on hydrogen generation through chemical hydrides using metal-based nanocatalysts. His doctoral work under the guidance of Prof. Ridha Touati and Prof. Umit B. Demirci emphasized innovative approaches to catalysis, setting the foundation for his future contributions.
Professional Experience
Dr. Kahri’s career includes a range of academic and research roles. He currently serves as a temporary assistant professor at Université de Tours, France, where he contributes to teaching and advanced research in energy materials. His previous roles include assistant professorships at Université de Poitiers, France, and the University of Monastir, Tunisia. His postdoctoral research at institutions such as Bilkent University, Turkey, and Atatürk University focused on spectroelectrochemistry of conducting polymers and the use of mesoporous materials in catalysis, respectively.
Research Interests
Dr. Kahri’s research focuses on the synthesis and application of MOFs, nanomaterials, and advanced catalysts for energy and environmental solutions. His work explores innovative techniques in electrochemical sensors, supercapacitors, and wastewater treatment. Additionally, he delves into heterogeneous catalysis and chemical kinetics, aiming to develop sustainable technologies for energy storage and pollutant remediation.
Awards and Recognition
Dr. Kahri’s excellence in research has been acknowledged through prestigious academic fellowships, including those from the Turkish Academy of Sciences and the Ministry of Education in France and Germany. These awards facilitated his research stays at leading institutions, enhancing his global academic collaborations and contributions.
Publications
Dr. Kahri has an extensive publication record in high-impact journals. Below are seven representative works:
Enhanced Catalysis of Monodisperse AgPd Alloy Nanoparticles (Nano Research, 2017; IF 9.9) – This work focuses on ammonia borane dehydrogenation under sunlight.
Hydrogen Generation from Sodium Borohydride (RSC Advances, 2016; IF 3.9) – Discusses cobalt-copper catalysts in hydrolysis reactions.
Dopamine Detection via Modified Electrodes (Journal of Electrochemical Society, 2020; IF 3.9) – A study on advanced electrochemical sensors.
Simultaneous Detection of Catechol and Hydroquinone (IEEE Sensors Journal, 2021; IF 4.3) – Highlights the application of nanomaterial-modified electrodes.
Development of Non-Enzymatic Cholesterol Sensors (Journal of Iranian Chemical Society, 2021; IF 2.4) – Research on composite-based sensors.
Rapid Synthesis of Zeolitic Imidazolate Frameworks (Journal of Materials Science, 2022; IF 4.5) – Investigates CO2 and CH4 adsorption properties.
Cu-MOF Catalyst for 4-Nitrophenol Reduction (Reaction Chemistry & Engineering, 2022; IF 3.9) – Explores green catalysis approaches.
Conclusion
Dr. Hamza Kahri’s career reflects a deep commitment to advancing scientific knowledge in materials chemistry. His contributions to sustainable technologies and energy applications underscore his dedication to solving global challenges. As a mentor, researcher, and collaborator, Dr. Kahri’s work continues to inspire innovation in the scientific community.