Teaching assistant at faculty of engineering Nahda University, Egypt.
Mohamed H. M. Hassanien is an Egyptian academic and researcher in nuclear physics, with expertise in polymer electrolyte membranes for fuel cell applications. He completed his MSc in Nuclear Physics at Minia University and has been a teaching assistant at Nahda University since 2019. Mohamed has presented at several international conferences and published multiple research papers in reputable journals. His work focuses on using nuclear techniques to study materials and fuel cells, contributing to the field of renewable energy and materials science ๐๐ฌ.
Professional Profile:
Google Scholar
Suitability for Best Researcher Award โ Mohamed H. M. Hassanien
Mohamed H. M. Hassanien is a promising researcher whose work in nuclear physics and fuel cell technology aligns perfectly with the criteria for the Best Researcher Award. With a strong academic foundation in nuclear physics from Minia University and a dedicated career at Nahda University, Mohamed has made notable contributions to polymer electrolyte membranes for fuel cell applications. His expertise in using nuclear techniques like positron annihilation spectroscopy to study materials has pushed forward the understanding of energy systems and materials science, particularly in the development of efficient fuel cell technologies for renewable energy.
Education and Experience:
-
M.Sc. in Nuclear Physics, Minia University, Egypt ๐
-
B.Sc. in Physics, Minia University, Egypt ๐
-
Teaching Assistant, Basic Science Department, Nahda University, Egypt (2019 – present) ๐จโ๐ซ
Professional Development:
Mohamed has actively pursued professional growth through various courses and certifications. These include training in searching global databases and managing scientific references at Minia University, computer maintenance, SPSS data analysis, and strategic planning. He has also undergone faculty development programs, including time management and effective presentation skills, which have enriched his teaching and research capabilities ๐๐ก๐.
Research Focus:
Mohamed’s research interests lie in nuclear physics, polymer electrolyte membranes, and their applications in fuel cells. He investigates materials using nuclear techniques such as positron annihilation spectroscopy, and explores the effects of humidity and electric fields on membrane properties. His work aims to advance energy systems through the development of efficient fuel cell technologies ๐๐ฌโก.
Awards and Honors:
-
Best Presentation at the 9th Environmental Physics Conference, Egypt ๐
-
Course Completion with Distinction in Scientific Research Ethics ๐
-
TOEFL Test Score: 503/550 for English proficiency ๐
Publication Top Notes
๐ฌ Crosslinked PVA/SSA Proton Exchange Membranes: Correlation Between Physiochemical Properties and Free Volume Determined by Positron Annihilation Spectroscopy โ ๐ Physical Chemistry Chemical Physics โ ๐ข Cited by: 172 โ ๐
2018
๐ฌ Free Volume and Permeabilities of O2 and H2 in Nafion Membranes for Polymer Electrolyte Fuel Cells โ ๐ Polymer โ ๐ข Cited by: 146 โ ๐
2008
๐ฌ Dust Accumulation on Photovoltaic Panels: A Case Study at the East Bank of the Nile (Beni-Suef, Egypt) โ ๐ Energy Procedia โ ๐ข Cited by: 65 โ ๐
2017
๐ฌ Effects of Ion Exchange on the Free Volume and Oxygen Permeation in Nafion for Fuel Cells โ ๐ The Journal of Physical Chemistry B โ ๐ข Cited by: 64 โ ๐
2009
๐ฌ Effect of Interface on Surface Morphology and Proton Conduction of Polymer Electrolyte Thin Films โ ๐ Physical Chemistry Chemical Physics โ ๐ข Cited by: 59 โ ๐
2013
๐ฌ Hierarchical Ternary ZnCoFe Layered Double Hydroxide as Efficient Adsorbent and Catalyst for Methanol Electrooxidation โ ๐ Journal of Materials Research and Technology โ ๐ข Cited by: 51 โ ๐
2022
๐ฌ Study of the TiO2 Effect on the Heavy Metals Oxides Borosilicate Glasses Structure Using Gamma-Ray Spectroscopy and Positron Annihilation Technique โ ๐ Radiation Physics and Chemistry โ ๐ข Cited by: 51 โ ๐
2019
๐ฌ Possible Presence of Hydrophilic SO3H Nanoclusters on the Surface of Dry Ultrathin Nafionยฎ Films: A Positron Annihilation Study โ ๐ Physical Chemistry Chemical Physics โ ๐ข Cited by: 51 โ ๐
2013
Conclusion
Mohamed H. M. Hassanien is a highly promising researcher whose work in nuclear physics and fuel cell development demonstrates his significant contributions to the fields of energy systems and materials science. His innovative use of nuclear techniques to advance fuel cell technologies, combined with his academic achievements and professional development, makes him an excellent candidate for the Best Researcher Award. His research has the potential to make lasting impacts on renewable energy solutions and scientific advancements in the future.