Islamic azad university | Iran
Dr. Mahdi Shahriarinour is an Assistant Professor and researcher in microbial biotechnology with extensive academic, teaching, and research experience in higher education. He earned his Ph.D. in Microbial Biotechnology from Universiti Putra Malaysia, following earlier degrees in microbiology, and has since built a distinguished career at Islamic Azad University, where he has served in multiple academic leadership and research roles. His teaching portfolio spans undergraduate, master’s, and doctoral levels, covering core and advanced subjects such as applied and environmental microbiology, fermentation technology, microbial genetics, industrial biotechnology, and emerging topics in microbial biotechnology. Dr. Shahriarinour has supervised and co-supervised a large number of M.Sc. and Ph.D. theses, reflecting strong mentorship and research leadership. His research interests focus on nano-biotechnology, nano-medicine, microbial biotechnology, bioremediation, sustainable production systems, and advanced nano-drug delivery approaches, particularly targeting antimicrobial resistance and cancer therapy. He is an active reviewer for several international peer-reviewed journals and a contributor to scientific committees, supporting research quality and innovation. His scholarly contributions include numerous publications in reputable international journals, demonstrating impact across biotechnology, nanomaterials, and biomedical applications. Overall, his work integrates fundamental microbiology with applied nanotechnology, contributing to sustainable solutions, therapeutic innovation, and the advancement of interdisciplinary life science research.
Featured Publications
Divsar, F., Habibzadeh, K., Shariati, S., & Shahriarinour, M. (2015). Aptamer-conjugated silver nanoparticles for the colorimetric detection of arsenic ions using response surface methodology. Analytical Methods, 7(11), 4568–4576.
Shahriarinour, M., Wahab, M. N. A., Mohamad, R., Mustafa, S., & Ariff, A. B. (2011). Effect of medium composition and cultural condition on cellulase production by Aspergillus terreus. African Journal of Biotechnology, 10(38), 7459–7467.
Shahriarinour, M., Mohd, N., Arbakariya, A., & Rosfarizan, M. (2011). Screening, isolation and selection of cellulolytic fungi from oil palm empty fruit bunch fibre. Biotechnology, 10(1), 108–113.
Shahriarinour, M., Wahab, M. N. A., Ariff, A. B., Rosfarizan, M., & Shuhaimi, M. (2011). Effect of various pretreatments of oil palm empty fruit bunch fibres for subsequent use as substrate on the performance of cellulase production by Aspergillus terreus. BioResources, 6(1), 291–307.
Shahriarinour, M., Divsar, F., & Eskandari, Z. (2019). Synthesis, characterization, and antibacterial activity of thymol-loaded SBA-15 mesoporous silica nanoparticles. Inorganic and Nano-Metal Chemistry, 49(6), 182–189.
Heydarnezhad, F., Hoodaji, M., Shahriarinour, M., Tahmourespour, A., et al. (2018). Optimizing toluene degradation by bacterial strain isolated from oil-polluted soils. Polish Journal of Environmental Studies, 27(2), 1–11.
Shahriarinour, M., Ramanan, R. N., Wahab, M. N. A., Mohamad, R. B., Mustafa, S., et al. (2011). Improved cellulase production by Aspergillus terreus using oil palm empty fruit bunch fibre as substrate in a stirred tank bioreactor through optimization of fermentation parameters. BioResources, 6(3), 2663–2675.
Shahriarinour, M., Wahab, M. N. A., Ariff, A. B., Mohamad, R., & Mustafa, S. (2011). Kinetics of cellulase production by Aspergillus terreus at various levels of dissolved oxygen tension in a stirred tank bioreactor. BioResources, 6(4), 4909–4921.