Dr Farshad Rahimpour is an associate Professor in Chemical Engineering Department at Razi University, Kermanshah, Iran. He was received his PhD degree of Chemical Engineering at 2006. He was Visiting Scholar at Biotechnology Department at Lund University in 2003-2005. In 2006 he was a Visiting Assistant Professor at Lund University. Also, during 2014-2015 he was a Visiting Associate Professor at Lund University. From 2016 to 2018 he served as Department Chair at Chemical Engineering Department, Razi University, Kermanshah, Iran. Dr Rahimpour published more than 40 peer-reviewed paper in ISI journals and also presents several papers in international and national conferences.
Cavus Falamaki is a professor of Chemical Engineering at the Amirkabir University of Technology (AUT, Tehran Polytechnic), Iran. He received his PhD degree from the same university in 1996, partly being a PhD exchange student at ETH, Zurich, under the supervision of Dr. Christian Bärlocher and Dr. Lynne McCusker (Laboratorium für Kristallographie), specializing on zeolite synthesis. Before joining AUT, he acted as the head of the Ceramics Processing Group at the Materials and Energy Research Center, Iran. He was nominated as one of the Top Ten National Researchers in Nanotechnology by the Presidency in 2007. He was a winner of the 2nd Festival of Iran Biotechnology (Biotech 2013) in the section “Top Three Products”. He has run more than 15 industrial projects with the Iranian petrochemical/polymer/inorganic chemical industries during the last two decades. His main research interests include, among others, zeolite and pseudo-zeolites, ceramic membranes, SPR sensors and novel nanomaterial characterization techniques. He is currently a member of the editorial board of the Nanomedicine Research Journal, released by the Iranian Society of Nanomedicine.
Scopus Link: https://www.scopus.com/authid/detail.uri?authorId=6603235246
Mohammad Haghighi was born in Iran, in 1969, where he received both B.Sc. and M.Sc. in chemical engineering from Shiraz University and Isfahan University of Technology in 1992 and 1995, respectively. He joined Sahand University of Technology where he worked as a lecturer as well as researcher until 2003. He did a PhD program on “Catalytic Partial Oxidation of Methane for Direct Conversion of Natural Gas to Methanol” under supervision of Professor Dong-ke Zhang, at Curtin University of Technology in Western Australia in 2007. After that he was back to Sahand University of Technology and appointed as Founding Director of Reactor and Catalysis Research Center. Using funding from industries and organizations and in collaboration with Sahand University of Technology, Reactor & Catalysis Research Center, RCRC, was established in 2000. The RCRC carry out research at industrial level in frontier areas in catalysis and reactor design including development of novel catalytic systems based on plasma, microwave, ultrasound, nano-materials, photo catalysis, and surface studies especially activation of small molecules on single crystal surfaces.
Mohammad Kazemeini is a Professor of Chemical and Petroleum Engineering, at the Sharif University of Technology since 1991. He performed all his studies at the U.S.A. where he received his B.S. degree in Chemical Engineering from the University of Minnesota on 1984. Then after, he attended the University of Virginia where he received his M.S. degree specializing in the field of Electrochemical Engineering. He continued his studies at the University of Illinois at Chicago and got his PhD degree specializing in Catalysis and Surface Science. His current research interests include; preparation, characterization and physiochemical evaluations as well as; mathematical modelling of chemical and physical kinetics of variety of Photocatalysts, Core-Shell type, Magnetic and many other types of catalysts supported upon CNT, GO, Nano-Fibers, Zeolites and MOF materials. Moreover, he is highly interested in designing and fabrication as well as investigating performance of catalytic microreactors and microfluidic systems as well as; photocatalytic and catalytic API (i.e.; activated pharmaceutical ingredients) and environmental pollutant removing catalysts and sorbents.
Alireza Khataee (BSc, MSc, PhD) is a professor of applied chemistry (>540 papers, >27300 citations, H-index 80). His main research fields are advanced water and wastewater treatment processes, synthesis and modification of nanomaterials, and optical sensors.
Y. Mortazavi received the BSc degree in Chemical Engineering from University of Shiraz, Shiraz, Iran, and the MSc and PhD degrees in Chemical Engineering from University of Waterloo, Waterloo, Ontario, Canada. He joined University of Tehran, College of Engineering, School of Chemical Engineering, Tehran, Iran in 1995. His research interests include catalysis and reaction engineering especially in C1 chemistry, environmental catalysis, chemical gas sensors and nanostructured and functionalized materials.
Ezzat Rafiee was born in Mashhad, Iran, in 1971. She received her B.Sc., then M.Sc. degree in inorganic chemistry from Shiraz University in 1997 under supervision of Professor M. Rashidi. She received her Ph.D. degree from Isfahan University under the supervision of Professor Sh. Tangestaninejad in 2004. She has worked as a researcher at Liverpool University, UK, on LCIC in 2003 under the supervision of Professor Ivan Kozhevnikov. Her research is focused on the catalyst and nano material Synthesis, catalytic applications, nanocomposite, hybrid nano material, nanophotocatalyst and polyoxometalates. She is currently a Professor in the Department of Chemistry and the Institute of Nano Science and Nano Technology at Razi University in Kermanshah, Iran.
Researchgate Link: Ezzat RAFIEE | Prof. | Prof. in Inorganic Chemistry | Razi University, Kermanshah | razi | Department of Inorganic Chemistry
Scopus Link: https://www.scopus.com/authid/detail.uri?authorId=15019774300
Alimorad Rashidi (born 1973) is a Chemical Engineer and nanotechnologist. He is a Professor of Chemical Engineering at Research Institute of Petroleum industry since2000. He is well known in the field of nanocatalyst and porous nanomaterials especially carbon nanomaterials which find applications in different areas of research including catalysis, energy storage and conversion and carbon dioxide and methane conversion and Hydrogenation Reaction and desulfurization.
Scopus: https://www.scopus.com/authid/detail.uri?authorId=56996883600
Mehran Rezaei is a Professor of Chemical Engineering at Iran University of Science and Technology (IUST) and serves as catalyst research and engineering manager at Sarv Oil&Gas Industries Development Company. He currently is Assistant Editor of the International Journal of Hydrogen Energy (Elsevier) and Subject Editor of the Process Safety and Environmental Protection (Elsevier). His research interests include syngas production, environmental catalysis, hydrogen production and purification, characterization, and applications of mesoporous materials. Over the years he has commercialized more than 20 catalysts for petrochemical, petroleum and steel industries and has more than 200 publications.
Javad Saien received his Bachelor’s degree in Chemical Engineering from Amir Kabir University of Technology in 1984. He obtained the Master’s degree in Chemical Engineering from College of Engineering, University of Tehran, in 1991 and then PhD in Chemical Engineering, from University of Bradfored, UK, in 1995. From 1986, he has been a member of academic staff at Bu-Ali Sian University, Hamedan, where he was promoted to full professor about 12 years ago. His research, during these years, has been concerned on degradation of pollutants in wastewaters using homogenous/heterogeneous processes in different photo and solar reactors. Recently, he is working on persulfate/periodate activation for wastewater treatment. Another field of interest has been liquid-liquid extraction. Single drop experiments, impinging streams, liquid-liquid equilibria and interfacial tension alteration have been investigated. The influence of media and operating conditions like mass transfer intensification with external fields, use of ionic-liquids as solvent/surfactant as well as nanoparticles have been considered.