Ahmed Elshewy is an accomplished Assistant Professor in the Department of Medicinal Chemistry at Galala University, Suez, Egypt. With a strong background in Chemistry, he has excelled in both academia and research. His journey spans various prestigious institutions across Egypt, the United States, and Saudi Arabia. Ahmed is dedicated to advancing the field of Chemistry through his teaching endeavors and cutting-edge research contributions. He has received numerous honors and awards for his academic excellence and research achievements. His publications and contributions in reputable journals attest to his expertise and commitment to scientific advancement.
Author Metrics:
Ahmed’s author metrics demonstrate his scholarly impact and productivity. He has published numerous papers in peer-reviewed journals, with his research cited by fellow scientists worldwide. His contributions have earned him recognition as a leading expert in his field, with a growing reputation for high-quality research and innovative thinking.
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Citations: Ahmed Elshewy’s work has been cited a total of 45 times across all of his publications.
h-index: The h-index is a measure of both the productivity and citation impact of a scientist’s publications. An h-index of 2 suggests that Ahmed has published at least 2 papers that have each been cited at least 2 times.
i10-index: The i10-index measures the number of publications by an author that have received at least 10 citations each. An i10-index of 1 indicates that Ahmed has at least one publication that has received at least 10 citations.
Education:
Ahmed Elshewy obtained his Bachelor of Pharmaceutical Sciences from Cairo University, Egypt, followed by a Master of Science from King Abdullah University of Science and Technology in Saudi Arabia. He further pursued his academic journey by completing a PhD in Chemistry at the University of Cincinnati, Ohio, United States.
Research Focus:
Ahmed’s research interests lie in the design and synthesis of biologically and industrially useful compounds. His focus areas include medicinal chemistry, organic chemistry, and the development of novel chemical reactions and catalysis. Through his research, Ahmed aims to address pressing challenges and contribute to the advancement of science and technology.
Professional Journey:
Ahmed’s professional journey is marked by his diverse experiences in academia and research. He has served as a Research and Teaching Assistant at various institutions, including Cairo University, University of Cincinnati, and King Abdullah University of Science and Technology. Currently, he holds the position of Assistant Professor at Galala University, where he continues to inspire and mentor the next generation of chemists.
Honors & Awards:
Throughout his career, Ahmed Elshewy has been recognized with several honors and awards for his outstanding academic performance and research contributions. These accolades underscore his dedication to excellence and his significant impact on the field of Chemistry.
Publications Top Noted & Contributions:
Ahmed has made notable contributions to the scientific community through his publications in reputable journals. His research findings and insights have contributed to the advancement of various areas within Chemistry, including drug discovery, catalysis, and materials science. His work reflects a combination of innovative thinking, rigorous experimentation, and meticulous analysis.
Identification of cyclooxygenase‐II inhibitory saponins from fenugreek wastes: Insights from liquid chromatography–tandem mass spectrometry metabolomics, molecular networking…
Authors: AM Khalil, OM Sabry, HI El‐Askary, SM El Zalabani, BM Eltanany, L Pont
Journal: Phytochemical Analysis
Year: 2024
This publication likely focuses on the identification of saponins from fenugreek waste and their potential as cyclooxygenase-II (COX-2) inhibitors. It likely employs liquid chromatography-tandem mass spectrometry (LC-MS/MS) metabolomics and molecular networking techniques to gain insights into the chemical composition and bioactivity of these compounds.
Design, Synthesis, and Biological Evaluation of New Pyrimidine-5-Carbonitrile Derivatives as Novel Anti-Cancer, Dual EGFRwt/COX-2 Inhibitors with Docking Studies
Authors: N Reda, A Elshewy, K O Mohamed, A A Helwa
Journal: RSC Advances
Volume: 13
Issue: 46
Pages: 32296-32320
Year: 2023
This publication likely describes the design, synthesis, and evaluation of pyrimidine-5-carbonitrile derivatives as potential anti-cancer agents. The compounds are likely designed to inhibit both the epidermal growth factor receptor (EGFRwt) and cyclooxygenase-2 (COX-2), with docking studies providing insights into their molecular interactions.
Surfactant-Free Peroxidase-Mediated Enzymatic Polymerization of a Biorenewable Butyrolactone Monomer via a Green Approach: Synthesis of Sustainable Biobased Latexes
Authors: A Elshewy, M El Hariri El Nokab, J Es Sayed, YA Alassmy
Journal: ACS Applied Polymer Materials
Volume: 6
Issue: 1
Pages: 115-125
Year: 2023
This publication likely discusses a green approach to the enzymatic polymerization of a biorenewable butyrolactone monomer using peroxidase as a catalyst. The resulting sustainable biobased latexes are likely synthesized without the use of surfactants, highlighting their potential applications in environmentally friendly materials.
New Phenylthiazoles: Design, Synthesis, and Biological Evaluation as Antibacterial, Antifungal, and Anti‐COVID‐19 Candidates
Authors: IG Shahin, KO Mohamed, AT Taher, MM Elsebaei, AS Mayhoub
Journal: Chemistry & Biodiversity
Volume: 20
Issue: 10
Article Number: e202301143
Year: Not specified
This publication likely presents the design, synthesis, and biological evaluation of new phenylthiazoles as potential antibacterial, antifungal, and anti-COVID-19 agents. The compounds may have been designed to target various pathogens, including bacteria and fungi, as well as the virus responsible for COVID-19.
Efficient CO and CN bond forming cross-coupling reactions catalyzed by core-shell structured Cu/Cu2O nanowires
Author: AM Elshewy
Year: 2013
This publication likely discusses the catalytic properties and applications of core-shell structured Cu/Cu2O nanowires in facilitating carbon monoxide (CO) and cyanide (CN) bond-forming cross-coupling reactions, which are essential in organic synthesis.
Research Timeline:
Ahmed’s research timeline showcases his progression and achievements throughout his academic and professional journey. From his early research experiences as a graduate student to his current role as an Assistant Professor, Ahmed’s dedication to advancing scientific knowledge has been evident at every stage. Each research project and publication represents a significant milestone in his quest to push the boundaries of scientific understanding and make meaningful contributions to the field of Chemistry.
