Mousa Ghaemi | Nanocomposites | Excellence in Research

Prof Mousa Ghaemi: Nanocomposites

Professor Mousa Ghaemi is a respected figure at the University of Mazandaran. With his expertise and dedication, he has made significant contributions to the academic community. His work and teachings have undoubtedly enriched the university’s environment and inspired countless students and colleagues. Through his research and scholarly activities, Professor Ghaemi continues to play a pivotal role in advancing knowledge and fostering academic excellence at the University of Mazandaran.

šŸ“š Education:

The user has a rich academic background in Chemistry and Polymer Science. They obtained their B.Sc. in Chemistry from the Department of Chemistry at the University of Isfahan, Iran, in 1975. Building on this foundation, they pursued an M.Sc. in Polymer and Fiber Science at the University of Manchester Institute of Science and Technology (UMIST) in Manchester, England, completing this degree in 1977. During their M.Sc. studies, they conducted research on the “Determination of Tg of polymers using an inverse gas chromatography technique.” Subsequently, they earned a Ph.D. in Polymer Chemistry and Technology from the Department of Chemistry at the University of Aston in Birmingham, England, in December 1980. Their doctoral research focused on “Measuring dynamic and mechanical properties of thiol-modified ABS polymer.” This academic journey reflects their dedication to advancing their knowledge and expertise in Chemistry and Polymer Science through rigorous research and education.

Conference Attended:

In addition to actively participating in national conferences, the user has been an enthusiastic attendee of numerous international conferences, underscoring their commitment to global scientific engagement. Their international conference attendance includes events such as the “Photo and Thermal Degradation and Stabilization of Polymers” at the University of Sussex, England, in 1981, the “Crosslinking and Network Formation in Polymers, Materials, Methods, and Application” in London, England, in October 1983, and the “New Trends in the Photochemistry of Polymers” in Stockholm, Sweden, in August 1985. Furthermore, they have taken part in significant gatherings like the “18th Australian Polymer Symposium” in Melbourne, Australia, in February 1990, the “16th Annual Meeting on Polymer Stabilization Mechanisms and Applications” in Birmingham, England, in September 1991, and the “5th Pacific Polymer Conference” in South Korea in October 1997, among others. This extensive international conference participation demonstrates their dedication to staying updated with the latest developments in their field and networking with experts from around the world.

šŸ“… Research Interests:

1. Drug Encapsulation Preparation and Optimization of Biodegradable Polymeric Drug Carriers and Encapsulation of Drugs for Sustained Release.

2. Composites and Nanocomposites Incorporation of a wide range of Nano-Fillers in Polymeric Matrices for Tuning their properties depending on the Applications.

3. Polymers for Separation and Adsorption Synthesis and Functionalization of Natural Polymers and Development of Polymeric Materials with Tuned Properties Appropriate for Various Removal Processes.

Professional Profiles:
Publications Top Note:

 

2. Removal of heavy metals from polluted water using magnetic adsorbent based on Īŗ-carrageenan and N-doped carbon dots, Zeinab Rahmani, Mousa Ghaemy, Ali Olad, Hydrometallurgy 213 (2022) 105915.
4. Highly efficient and antibacterial ion exchanger based on graphene oxide for removal of chromate and nitrate from water: synthesis, characterization and application, Maryam Shojaipour, Mousa Ghaemy, New J. Chem., 2021, 45, 268-281.

 

Nanocomposites

Introduction of Nanocomposites

Nanocomposites research is at the forefront of materials science and engineering, focusing on the development of advanced materials that combine the unique properties of nanoscale materials with conventional matrices. These hybrid materials hold incredible potential for a wide range of applications, from aerospace to electronics, as they offer enhanced mechanical, electrical, and thermal properties, opening doors to unprecedented innovations.

Polymer Nanocomposites šŸ§¬:

Explore the integration of nanoparticles into polymer matrices to create lightweight and durable materials with improved mechanical strength and flexibility. šŸŒŸ

Nanocomposites for Energy Storage āš”:

Investigate the utilization of nanomaterials to enhance the performance of batteries and supercapacitors, enabling more efficient energy storage solutions. šŸ”‹

Carbon Nanotube Composites šŸŒ:

Delve into the world of carbon nanotube-based composites, known for their exceptional electrical conductivity and mechanical properties, and their potential in electronics and structural applications. šŸ’”

Nanocomposites for Biomedical Applications šŸ’‰:

Examine how nanocomposites are being used in the development of biocompatible materials for drug delivery, tissue engineering, and medical devices, revolutionizing healthcare. šŸ„

Nanocomposites in Aerospace šŸš€:

Discover the use of nanocomposites in aircraft and spacecraft construction, offering reduced weight, increased fuel efficiency, and improved resistance to extreme conditions. šŸ›°ļø