M
Mohammad Reza Samaei
Researcher at Shiraz University of Medical Sciences
Publications - 76
Citations - 704
Mohammad Reza Samaei is an academic researcher from Shiraz University of Medical Sciences. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 11, co-authored 54 publications receiving 393 citations. Previous affiliations of Mohammad Reza Samaei include Shiraz University & Iran University of Science and Technology.
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Removal of penicillin G from aqueous phase by Fe+3-TiO2/UV-A process.
TL;DR: Evaluation of the feasibility of using ultraviolet radiation (UV-A) and fortified nanoparticles of titanium dioxide (TiO2) doped with Fe+3 to remove penicillin G (PENG) from aqueous phase demonstrated that the antibiotic removal rate increased by decreasing pH and increasing the amount of catalyst and contact time.
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Modelling and Optimizing Pyrene Removal from the Soil by Phytoremediation using Response Surface Methodology, Artificial Neural Networks, and Genetic Algorithm.
Farzaneh Mohammadi,Mohammad Reza Samaei,Abooalfazl Azhdarpoor,Hakimeh Teiri,Ahmad Badeenezhad,Saeid Rostami +5 more
TL;DR: The results showed that using indole acetic acid and pseudomonas bacteria increased the efficiency of the sorghum plant in removing pyrene from the soil, indicating that the prediction capability of the ANN model was much better than that of the RSM model.
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A Novel Fuzzy Bayesian Network-HFACS (FBN-HFACS) model for analyzing Human and Organization Factors (HOFs) in process accidents
Akbar Rostamabadi,Mehdi Jahangiri,Esmaeil Zarei,Mojtaba Kamalinia,Sean Banaee,Mohammad Reza Samaei +5 more
TL;DR: A novel accident analysis model incorporating Bayesian network (BN) and fuzzy Best Worst Method (fuzzy-BWM) into the HFACS framework to overcome limitations is presented.
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The effects of simultaneous application of plant growth regulators and bioaugmentation on improvement of phytoremediation of pyrene contaminated soils.
TL;DR: Application of IAA in the planted treatments with sorghum could have a significant effect on increasing the removal efficiency of pyrene.
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The effect of temperature on airborne filamentous fungi in the indoor and outdoor space of a hospital.
TL;DR: Investigation of the effects of three incubation temperature on the density and composition of airborne fungi in an indoor and outdoor space of hospital provided that incubationTemperature had effect on airborne fungi remarkably.