Mojtaba Akbari - Department of Chemistry, Faculty of Science, Ferdowsi University of Mashhad, Mashhad, ۹۱۷۷۹۴۸۹۷۴, Islamic Republic of Iran
Fatemeh Moosavi - Department of Chemistry, Faculty of Science, Ferdowsi University of Mashhad, Mashhad, ۹۱۷۷۹۴۸۹۷۴, Islamic Republic of Iran

Water pollutants can be classified as many kinds such as organics and inorganics that mainly are discharged from industrial effluents and human sewage into the water [۱]. Metal Organic Frameworks (MOFs) have been used widely as molecular adsorbent due to their large surface area, high pore volume, high payload, low toxicity and biocompatibility [۲-۳]. MOF drug delivery system (DDS) can prevent drug release into the water by restricting the drugs into MOFs. In addition, DDS can also reduce the side effects of anticancer drugs while they circulate into the body [۴]; MOFs can be used as filters [۵]. In this study, we investigated two anticancer drugs, ۵-fluorouracil (۵-FU) and gemcitabine (GEM), diffusion and storage into UiO-۶۶ by molecular dynamic (MD) simulations. In order to gauge diffusion of ۵-FU and GEM into UiO-۶۶, mean square displacement (MSD) was computed for both promising drugs. MD simulations show an acceptable adsorption and diffusion of ۵-Fu in MOF unlike GEM drug. Adsorption of GEM was mostly on exterior sites of UiO-۶۶ due to high diameter of GEM than the diameter of UiO-۶۶ pores.