Professor of Physical Chemistry of Polymers
Tarek Madkour is an award-winning chemistry professor, a Fulbright scholar and a pioneer in the research area of computational modeling of polymers. He obtained his PhD from University of Cincinnati, OHIO, USA under the supervision of Professor James E. Mark, a distinguished research professor and a member of Nobel Laureate P. J. Flory’s research group. Madkour was awarded the Fulbright research scholar award in 1996 supported by both the Fulbright organization and the United States Air Force. He has been awarded the Harry M. Showman Award in chemistry from Jordan in recognition for his pioneering research regarding computational modeling and simulation in the area of polymer chemistry in the Middle East. He has been also awarded the Polymer Society of Japan Award and the State of Egypt Award in chemistry. Madkour has successfully secured research fellowships including the U.S. peace fellowship and a supreme council research fellowship from the Catholic University of Leuven (also currently known as the University of Leuven) in Belgium. He has over 55 international peer-reviewed publications and has delivered presentations in more than 14 international conferences worldwide. He has supervised eight graduate-level theses and secured funding for over nine major research grants as the primary research investigator.
After completing his PhD, Madkour finished his postdoctoral research on the modeling and simulation of gas diffusion through polymers supported by the U.S. Environmental Protection Agency. In 1993, Madkour returned to Helwan University in Egypt as a lecturer of physical chemistry and spent three years there establishing the polymer modeling and simulation research lab at the Faculty of Science. In 1996, Madkour traveled once again to the United States on the Fulbright research scholar award where he spent over six months researching and delivering a graduate-level course on polymer simulation. In 1997, Madkour joined the ICI-Europe, a leading British chemical industry, as a senior research scientist, where he helped to establish the molecular modeling and simulation research facility in the organization's research and development center in Belgium. In 2001, Madkour returned to academia as a visiting professor of physical chemistry of polymers at the Catholic University of Leuven, and in 2002, joined the United Arab Emirates University as an associate professor of physical chemistry of polymers and as the chair of the Department of Chemistry. In 2005, Madkour was recruited by the American University (AUC) in Washington, D.C. as a member of the founding team of AU's new campus in West Africa. Following his work with AU, Madkour began working as the director of academic planning on a collaborative EU-Turkish project in 2009, which sought to establish a new Turkish University. In 2010, Madkour accepted a position at Taibah University in Saudi Arabia prior to joining AUC as a professor of physical chemistry of polymers in 2011.
Madkour is a member of several societies and groups, including: the American Chemical Society,;Rubber Division, American Chemical Society;the American Physical Society; and the Belgian Polymer Group. Additionally, he is a member and reviewer for the Fulbright Association. Madkour is also a European Commission consultant for the chemical and educational development sectors since 2002.
- Madkour, T. M.;* AbdelAzeem, E.; Tayel, A.; Mustafa, G.; Siam, R. “In -situ polymerization of polyurethane-silver nanocomposite foams with intact thermal stability, improved mechanical performance and induced antimicrobial properties,” Journal of Applied Polymer Science, (2016), 133(11), 43125(1-9).
- Mekewi, M. A.; Madkour, T. M.; Darwish, A. S.; Hashish, Y. M., “Does poly (acrylic acid-co-acrylamide) hydrogel be the pluperfect choiceness in treatment of dyeing wastewater? “From simple copolymer to gigantic aqua-waste remover”,” Journal of Industrial and Engineering Chemistry, (2015), 30, 359-371.
- Madkour, T. M.;* Mohamed, Sahar K. “Heterocyclic and aromatic based polyurethane scaffolds: morphology and crystallinity studied by X-ray diffraction, small-angle X-ray scattering and differential scanning calorimetry,” Journal of Applied Crystallography, (2013), 46, 1-13.
- Madkour, T. M.;* Mark, James E. “Molecular modeling investigation of the fundamental structural parameters of polymers of intrinsic microporosity for the design of tailor-made ultra-permeable and highly selective gas separation membranes,” Journal of Membrane Science, (2013), 431, 37-46.
- Madkour, T. M.;* Salem, Sarah A.; Miller, Stephen A. “The role of the deformational entropy in the miscibility of polymer blends investigated using a hybrid statistical mechanics and molecular dynamics model,” Physical Chemistry Chemical Physics, (2013), 15, 5982-5991.
- Madkour, T. M.;* Azzam, R. A. “Non-Gaussian behavior of self-assembled thermoplastic polyurethane elastomers synthesized using two-step polymerization and investigated using constant-strain stress relaxation and molecular modeling techniques” European Polymer Journal, (2013), 49(2), 439-451.
- Madkour, T. M.;* Hagag, F. M.; Mamdouh, W.; Azzam, R. A. “Molecular-level modeling and experimental investigation into the high performance nature and low hysteresis of thermoplastic polyurethane/multi-walled carbon nanotube nanocomposites,” Polymer, (2012), 53(25), 5788-5797.
Honors and Awards
- The Catholic University of Leuven Research Council Fellowship, Belgium, 2001
- The State of Egypt Award in Chemistry, 1998
- The Showman foundation Award in Chemistry, the Kingdom of Jordan, 1998
- The Polymer Society of Japan Outstanding Paper Award, 1997
- The Fulbright Senior Scholar Award, USA, 1996
- University of Cincinnati, Research Scholarship, 1991
- USA Peace Fellowship, 1987
- Water treatment and desalination using tailored-design polymeric systems (research sponsored by the Egyptian Academy for Scientific Research and Technology)
- Nanoporous material applications in food packaging and storage
- Drug delivery and controlled release using smart polymers
- Nanoporous polymeric membranes for selective separation of gas mixtures
- Computational modeling and simulation of polymeric systems