Dr. Ayman Ghfar’s academic foundation is rooted in a deep passion for chemical sciences, particularly in environmental and analytical chemistry. He earned his Master’s degree in Organic Chemistry from Menofeya University, Egypt, with a thesis focused on High Performance Liquid Chromatography (HPLC-UV) for the quantification of the immunosuppressive drug Rapamycin. He further advanced his expertise by completing a Doctorate (PhD) in Organic Chemistry at Tanta University, Egypt. His doctoral research, titled “Preparation of some materials for removal of pollutants from water,” highlights his early dedication to environmental sustainability and practical solutions for water purification. This strong academic background laid the groundwork for his impactful research in Experimental Physics, particularly in the development of eco-friendly nanocomposites and chromatographic technologies.

 Professional Endeavors

Dr. Ghfar’s professional journey is a compelling blend of teaching, technical training, and innovative research. As a chemistry educator, he has taught a range of foundational and advanced courses including General Chemistry Chem101, Chem109, and Chem353, contributing significantly to student development in scientific methodology and Experimental Physics applications. Additionally, he is a seasoned trainer on high-end analytical instruments such as UPLC-MS/MS, GC-MS/MS, and FTIR, equipping students and professionals with essential skills in instrumental analysis. His instrumental expertise supports his wide-ranging projects aimed at water decontamination, nanomaterial synthesis, and chromatographic column development areas where Experimental Physics plays a critical role in the practical testing and physical behavior of chemical systems.

 Contributions and Research Focus

Dr. Ayman Ghfar’s research contributions are significant and multifaceted. His work revolves around the fabrication of novel clay-nanocomposites that serve as green and eco-friendly materials for purifying industrial, municipal, and drinking water. These materials have applications in Nano-HPLC, Gas Chromatography, and environmental remediation. He has pioneered the fabrication of monolithic and stainless-steel chromatographic columns packed with his custom clay-nano composites, enhancing the separation and detection capabilities in analytical chemistry. He is also deeply engaged in the extraction and removal of complex water pollutants, including PCBs, pesticides, herbicides, heavy metals, and organic contaminants, prior to analysis by high-resolution techniques such as HPLC-UV, ICP-MS, and FAA. His research integrates both theoretical and applied Experimental Physics, using material properties and instrument responses to solve real-world environmental problems.

 Impact and Influence

Dr. Ghfar’s work has made a tangible impact on both academic research and industrial practices. His development of eco-friendly nanomaterials and advanced chromatographic technologies offers sustainable solutions for global water contamination issues. He has established himself as a reference in combining organic chemistry with Experimental Physics, especially in the application of clay-based nanotechnology for pollutant extraction. His training and mentorship have empowered many students and professionals, extending his influence into the next generation of researchers.

Academic Cites

Dr. Ghfar’s scholarly work has been cited in various research contexts, particularly in studies focused on water treatment, chromatography, and green nanotechnology. His publications serve as key references for researchers exploring environmentally friendly pollutant removal methods and innovative chromatographic tools. The intersection of Experimental Physics and analytical chemistry in his studies provides a valuable framework for further research and technological advancement.

 Legacy and Future Contributions

With a clear focus on sustainability, innovation, and education, Dr. Ayman Ghfar is poised to leave a lasting legacy in the fields of environmental chemistry and applied physics. His future work is expected to explore scalable applications of nanomaterials, enhanced chromatographic designs, and new physical techniques for contaminant detection and removal. By continuing to bridge Experimental Physics and chemistry, he will further contribute to addressing critical environmental challenges through science and technology.

📘Experimental Physics

Dr. Ayman Ghfar’s research integrates principles of Experimental Physics with nanotechnology to create advanced materials for water purification. His chromatographic innovations are built upon physical testing and behavior of composites, making his work foundational in Experimental Physics applications in environmental chemistry. The use of spectroscopy, chromatography, and physical analysis instruments further underscores his deep integration of Experimental Physics into real-world problem-solving.

 Notable Publication

✍️ Designing of MoCe₂O₄/black phosphorus composites: Innovative materials for enhanced energy storage and electrochemical detection of hydrogen peroxide

Authors: A.M. Afzal, M.A. Alomar, A. Kumar, H.A. El-Sabban, A.A. Ghfar

Journal: Inorganic Chemistry Communications

Citations: 0

✍️ Exploring chemically processed Symplocos racemosa sustainable material feasibility for sorptive amputation of methylene blue dye from wastewater by green technology

Authors: M.F. Rashid, R.A. Rehman, M. Akram, A.A. Ghfar, M. Liviu

Journal: Biomass Conversion and Biorefinery

Citations: 0

✍️ Facile Synthesis of Tin-Doped Copper Oxide Loaded on Almond Shell Activated Carbon Composite for the Photodegradation of Organic Pollutants Under Sunlight

Authors: P. Samiyammal, B. Srividhya, S. Renukadevi, A.A. Ghfar, S. Ragupathy

Journal: Luminescence

Citations: 0

✍️ Projected long-term climate change impacts on rainfed durum wheat production and sustainable adaptation strategies

Authors: H. Ghazouani, R. Jabnoun, A. Harzallah, G. Provenzano, F. Sher

Journal: Journal of Cleaner Production

Citations: 0

✍️ Amendment of Tomato (Lycopersicon esculentum L.) Grown in Calcareous Soil with Spent Mushroom Substrate-derived Biochar

Authors: H. Sardar, M.A. Waqas, A. Nawaz, S.M. Mohammad Wabaidur, S. Abou Fayssal

Journal: Journal of Soil Science and Plant Nutrition

Citations: 0

✍️ Theoretical Engineering of Structural, Electronic, and Optical Characteristics of Double Perovskite Sr₂XWO₆ (X = Co, Zn) for Optical Devices

Authors: A. Nazir, E.A. Khera, Z. Anjum, Y.A. Kumar, R. Sharma

Journal: Journal of Inorganic and Organometallic Polymers and Materials

Citations: 8