Kamran Ghasemzadeh Editor

Angelo Basile, officially qualified as a Full Professor at university in the subject “Sistems, Methods and Technologies of the Chemical Engineering Processes”, until 2020 was a senior researcher at the Italian National Research Council (CNR), wherein he developed membranes for gas purification and membrane reactors for pure hydrogen production. His prolific research works have been published in numerous papers and conference proceedings, and he has also produced various Italian (8), European (3 )and worldwide (1)patents. Basile has edited more than 60 scientific books and 60 special journal issues on membrane science and technology. He is an associate editor of various international journals (like IJHE) and Editor-in-Chief of the International Journal of Membrane Science & Technology; and member of the editorial board of more 20 int. journals. Angelo Basile’s h-index 51, on the areas: Energy, Chem. Eng., Env. Science, Materials Science, Chemistry, (www.scopus.com – 21 March 2022). Today Basile is a R&D Manager at ECO2Energy (Rome) and Hydrogenia (Genoa), both societies under the umbrella of the European society Greeninvest; he also is offcially collaborating with the Dept. of Eng. at the University Campus Bio-medical of Rome. Dr. Kamran Ghasemzadeh is an associate professor of chemical engineering at the Urmia University of Technology (Urmia, Iran). At this moment, he is director of UUT research center. He received his doctorate from the Sahand University of Technology (Tabriz, Iran) and worked as a researcher in the Nanomaterial Research Center (NMRC) for several years. Dr. Ghasemzadeh has collaborated with ITM-CNR conducting research on hydrogen production using inorganic (lead or silica-based) materials. He has made many important contributions to the materials and devices for sustainable, clean energy such as inorganic membrane reactors, pure hydrogen production, natural gas conversion, gas separation by membranes, inorganic membrane synthesis and modeling of membrane reactor performance and separation processes.