Babol Noshirvani University of Technology - Iran
Early Academic Pursuits
Morteza Hosseini's academic odyssey commenced with a solid foundation in Chemical Engineering at the Faculty of Engineering, Tech. University of Graz, Austria. His academic journey, spanning from B.Sc. to Ph.D., showcased a commitment to environmental biotechnology, culminating in a dissertation on the biological cleansing of waste air. The early years of education laid the groundwork for his future contributions to the field.
Joining Babol Noshirvani University of Technology in Iran in September 2000 marked a significant chapter in Hosseini's professional life. As an Associate Professor, he brought his expertise to the forefront, contributing to both academia and research. Prior to his tenure at Babol Noshirvani University, Hosseini engaged in impactful projects at the Institute of Environmental Biotechnology, Tech. University of Graz, Austria, from 1998 to 2000, focusing on biological treatment of wastewater and air pollution. As a leader in the discipline, he champions eco-friendly solutions, environmental stewardship, and the development of cutting-edge biotechnological strategies to safeguard and improve the health of our planet
Contributions and Research Focus
Hosseini's research journey reflects a diverse array of interests. From his early work on wastewater treatment using non-uniform electrical fields to his later investigations into the desalination of crude oil, his contributions underscore a multidisciplinary approach to solving complex environmental challenges. His expertise extends to the coagulation of colloidal particles and the electrostatic enhancement of coalescence in emulsions. Morteza Hosseini, an expert in this field, pioneers research and advancements in Environmental Biotechnology, earning recognition for his contributions. His work contributes to sustainable practices, earning accolades and the Best Faculty Award.
Accolades and Recognition
Throughout his career, Morteza Hosseini has earned recognition for his impactful contributions to the field of Chemical Engineering. His notable publications, including works on the elimination of CO and NO in bio reactors, have garnered attention in academic circles. Notably, his leadership role as the Head of Biotechnology Faculty at Babol Noshirvani University of Technology from 2019 to 2021 further highlights his recognition as a trusted figure in the academic community.
Impact and Influence
Hosseini's influence extends beyond the confines of his academic roles. His leadership positions, both as the Head of Biotechnology Faculty and as a Project Leader in Austria, demonstrate his capacity to guide and direct research endeavors. Moreover, his engagement with various professional societies, such as the Iranian Society of Chemical Engineers and the Iranian Nanotechnology Society, reflects a commitment to broader community impact. Environmental Biotechnology involves the application of biological processes to solve environmental challenges. Through innovative techniques like bioremediation and sustainable technologies, it addresses issues such as pollution, waste treatment, and ecological restoration.
Legacy and Future Contributions
As a seasoned educator, Hosseini has left an indelible mark on the academic landscape, having taught a range of courses and supervised numerous undergraduate and postgraduate projects. His legacy includes a significant contribution to the development of the Chemical Engineering Department at Mazandaran University, where he served as the Head from 2001 to 2003. Looking ahead, Morteza Hosseini's future contributions are poised to further enrich the realms of environmental biotechnology and chemical engineering. His research pursuits, particularly in the application of electrical fields for wastewater treatment and emulsion preparation, indicate a continued dedication to innovative solutions for pressing environmental challenges.
Fabrication and characterization of polyvinyl chloride mixed matrix membranes containing high aspect ratio anatase titania and hydrous manganese oxide nanoparticle for efficient removal of heavy metal ions: Competitive removal study 2020 (18)