Hassan Behnejad | Chemistry and Materials Science | Physical Chemistry Award

Prof Hassan Behnejad | Chemistry and Materials Science | Physical Chemistry Award

Prof., PhD of University of Tehran, Iran 

Professor Hassan Behnejad is a distinguished academic in the field of physical chemistry, with an extensive career at the University of Tehran. He earned his B.Sc. in Chemistry from the University of Shiraz in 1990 and his M.Sc. and Ph.D. in Physical Chemistry from the University of Tehran in 1993 and 1998, respectively. His Ph.D. research focused on the evaluation of intermolecular potential energy functions and the calculation of transport properties of gases. Since joining the University of Tehran’s faculty in 1998, Dr. Behnejad has advanced from Assistant Professor to Full Professor, reflecting his significant contributions to the field. His research interests include theoretical physical chemistry, thermodynamics, and the transport properties of fluids. Dr. Behnejad has also held key administrative roles, such as Vice-Dean of Faculty of Science for student affairs and Vice-President for student affairs at the University of Tehran. He spent a sabbatical year at the University of Maryland, USA, where he furthered his research on the thermodynamic behavior of fluids near critical points. Dr. Behnejad is renowned for his expertise in statistical thermodynamics and intermolecular forces, making him a valuable member of the academic community.

Professional Profile:

Education

Professor Hassan Behnejad has a robust educational background in the field of chemistry and physical chemistry. He completed his B.Sc. in Chemistry at the University of Shiraz in 1990. He then pursued advanced studies at the University of Tehran, where he earned his M.Sc. in Physical Chemistry in 1993, focusing on Quantum Statistical Thermodynamics of Transport Processes. Continuing at the same institution, he obtained his Ph.D. in Physical Chemistry in 1998. His doctoral research centered on evaluating intermolecular potential energy functions from viscosity data and calculating the transport properties of gases using three-particle collision matrix elements. This solid educational foundation laid the groundwork for his subsequent academic and research career.

 

Professional Experience

Professor Hassan Behnejad has a distinguished professional career at the University of Tehran, where he has made significant contributions since joining the faculty in December 1998. He began as an Assistant Professor in the Department of Chemistry, Faculty of Science, advancing to Associate Professor in January 2006, and achieving the rank of Full Professor in November 2016. His professional journey also includes key administrative roles, such as Vice-Dean of Faculty of Science for student affairs from November 2002 to 2008, and Vice-President for student affairs from July 2014 to September 2019. Additionally, he took a sabbatical leave from March 2008 to February 2009 at the University of Maryland, USA, where he conducted research on the thermodynamic behavior of fluids near critical points under the supervision of J. V. Sengers. Throughout his career, Professor Behnejad has demonstrated a steadfast commitment to teaching, research, and administration, significantly impacting his field and the academic community at the University of Tehran.

Research Interest

Professor Hassan Behnejad’s research interests lie predominantly in the domain of theoretical physical chemistry, with a particular focus on the thermodynamics and transport properties of fluids. His work encompasses the evaluation of intermolecular potential energy functions, the analysis of transport properties of gases in moderate densities, and the study of three-particle collision matrix elements. He is deeply interested in the thermodynamic behavior of fluids near critical points, which he explored during his sabbatical at the University of Maryland. Dr. Behnejad’s expertise extends to statistical thermodynamics and intermolecular forces, where he investigates the quantum statistical thermodynamics of transport processes. His research aims to enhance the understanding of fluid behavior, contributing to advancements in both theoretical frameworks and practical applications in physical chemistry.

Award and Honor

Professor Hassan Behnejad has been recognized for his exceptional contributions to the field of physical chemistry through various awards and honors. His dedication to research and education has earned him prestigious accolades from academic institutions and professional organizations. Notably, he was awarded a scholarship by the University of Tehran from September 1995 to December 1998, which supported his doctoral studies. His outstanding research and academic achievements have also been acknowledged through various commendations and awards throughout his career, underscoring his role as a leading figure in theoretical physical chemistry. These honors reflect his commitment to advancing scientific knowledge and his significant impact on both his students and peers in the academic community.

 

Research Skills

Professor Hassan Behnejad possesses extensive research skills that have significantly advanced the field of physical chemistry. His expertise includes the evaluation of intermolecular potential energy functions, which involves sophisticated mathematical and computational techniques to derive these functions from experimental viscosity data. Dr. Behnejad is adept at analyzing the transport properties of gases using three-particle collision matrix elements, a complex method that requires a deep understanding of statistical mechanics and thermodynamics. His skills also encompass the study of fluid behavior near critical points, integrating theoretical models with experimental observations. Furthermore, his proficiency in quantum statistical thermodynamics allows him to tackle intricate problems related to transport processes in fluids. Dr. Behnejad’s research skills are characterized by a strong foundation in theoretical analysis, computational modeling, and practical application, making him a distinguished figure in his field.

Publications

  • A comparative adsorption study of sulfamethoxazole onto graphene and graphene oxide nanosheets through equilibrium, kinetic and thermodynamic modeling
    R Rostamian, H Behnejad
    Process Safety and Environmental Protection, 2016
    Citation: 128
  • Applied thermodynamics of fluids
    D Browarzik, S Bottini, E Brignole, S Pereda, S Kjelstrup, D Bedeaux, …
    Royal Society of Chemistry, 2010
    Citation: 105*
  • A comprehensive adsorption study and modeling of antibiotics as a pharmaceutical waste by graphene oxide nanosheets
    R Rostamian, H Behnejad
    Ecotoxicology and environmental safety, 2018
    Citation: 70
  • A comparative study of thermal behaviors and kinetics analysis of the pyrotechnic compositions containing Mg and Al
    M Fathollahi, H Behnejad
    Journal of Thermal Analysis and Calorimetry, 2015
    Citation: 53
  • Thermodynamic behaviour of fluids near critical points
    H Behnejad, JV Sengers, MA Anisimov
    Year: 2010
    Citation: 45
  • Equilibrium and kinetic studies for the adsorption of benzene and toluene by graphene nanosheets: a comparison with carbon nanotubes
    MT Raad, H Behnejad, ME Jamal
    Surface and Interface Analysis, 2016
    Citation: 36
  • Insights into doxycycline adsorption onto graphene nanosheet: a combined quantum mechanics, thermodynamics, and kinetic study
    R Rostamian, H Behnejad
    Environmental Science and Pollution Research, 2018
    Citation: 34
  • Theoretical investigation of imidazolium based ionic liquid/alcohol mixture: a molecular dynamic simulation
    S Jahangiri, M Taghikhani, H Behnejad, SJ Ahmadi
    Molecular Physics, 2008
    Citation: 29
  • The extended law of corresponding states and the intermolecular potentials for He He and Ne Ne
    H Behnejad, A Maghari, M Najafi
    Journal of computational chemistry, 1995
    Citation: 28
  • A unified platform for experimental and quantum mechanical study of antibiotic removal from water
    R Rostamian, H Behnejad
    Journal of water process engineering, 2017
    Citation: 22