Postdoctoral Fellow from Zhejiang Normal University, China
Dr. Basem E. Keshta is a dedicated researcher in the field of chemistry, currently affiliated with the Department of Computational Chemistry at CDBIO in Romania. His work primarily focuses on computational approaches to chemical research, contributing to advancements in the field. Dr. Keshta has collaborated on significant publications, including a study on wet surface tissue adhesive hydrogels for wound treatment, published in the European Polymer Journal in 2024 . His research interests are centered around chemistry, and he has been recognized as a global expert from Romania in this domain.
Professional Profile
Education
Specific details regarding Dr. Keshta’s educational background are not publicly available. However, his current role in computational chemistry suggests a strong academic foundation in chemistry and related disciplines. Typically, professionals in this field hold advanced degrees such as a Master’s or Ph.D. in Chemistry, Computational Chemistry, or Chemical Engineering. These programs provide rigorous training in chemical theory, laboratory practices, and computational modeling, equipping researchers with the skills necessary for complex chemical analysis and research. Dr. Keshta’s contributions to scientific publications indicate a high level of expertise and a solid educational background supporting his research endeavors.
Professional Experience
Dr. Keshta is currently engaged with the Department of Computational Chemistry at CDBIO in Romania. His professional experience encompasses research in computational chemistry, where he applies theoretical and computational methods to solve chemical problems. This role involves collaboration with interdisciplinary teams, contributing to the development of innovative solutions in chemistry. His involvement in recent publications, such as the study on tissue adhesive hydrogels, demonstrates his active participation in advancing chemical research. While specific details of his previous positions are not disclosed, his current role signifies a career dedicated to scientific inquiry and research excellence.
Research Interests
Dr. Keshta’s research interests lie within the broad field of chemistry, with a particular focus on computational chemistry. This area involves using computer simulations and models to understand chemical structures, reactions, and properties. His work contributes to the development of new materials and chemical processes, as evidenced by his co-authorship in a study on wet surface tissue adhesive hydrogels for wound treatment . Such research has significant implications in biomedical applications, showcasing his interest in applying chemical principles to solve real-world problems.
Research Skills
Dr. Keshta possesses a strong skill set in computational chemistry, including proficiency in molecular modeling, simulation techniques, and data analysis. His expertise enables him to investigate complex chemical systems and contribute to the design of novel materials. The study on tissue adhesive hydrogels highlights his ability to collaborate on interdisciplinary research, integrating chemistry with biomedical applications . His skills are essential for advancing research in developing materials with specific properties, such as biocompatibility and adhesion, which are critical in medical treatments.
Awards and Honors
There is no publicly available information regarding specific awards or honors received by Dr. Keshta. However, his recognition as a global expert in chemistry from Romania indicates a respected standing in the scientific community . His contributions to high-impact research publications further underscore his professional achievements and the esteem in which he is held by peers in his field.
Conclusion
Dr. Basem E. Keshta is a committed chemist specializing in computational chemistry, contributing to significant research endeavors at CDBIO in Romania. His work, particularly in developing tissue adhesive hydrogels, demonstrates the practical applications of his research in addressing medical challenges . While specific details about his educational background and awards are not publicly disclosed, his active role in scientific research and recognition as a global expert reflect his dedication and impact in the field of chemistry
Publications Top Notes
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Chemical insight into the adsorption of reactive wool dyes onto amine-functionalized magnetite/silica core-shell from industrial wastewaters
Authors: AH Gemeay, BE Keshta, RG El-Sharkawy, AB Zaki
Year: 2020
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MIL series-based MOFs as effective adsorbents for removing hazardous organic pollutants from water
Authors: BE Keshta, H Yu, L Wang
Year: 2023
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Impacts of horseradish peroxidase immobilization onto functionalized superparamagnetic iron oxide nanoparticles as a biocatalyst for dye degradation
Authors: BE Keshta, AH Gemeay, AA Khamis
Year: 2021
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State of the art on the magnetic iron oxide nanoparticles: Synthesis, Functionalization, and applications in wastewater treatment
Authors: BE Keshta, AH Gemeay, DK Sinha, S Elsharkawy, F Hassan, N Rai, et al.
Year: 2024
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Cutting-edge in the green synthesis of MIL-101 (Cr) MOF based on organic and inorganic waste recycling with extraordinary removal for anionic dye
Authors: BE Keshta, H Yu, L Wang, AH Gemeay
Year: 2023
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Advanced lithography materials: From fundamentals to applications
Authors: Y Zhang, H Yu, L Wang, X Wu, J He, W Huang, C Ouyang, D Chen, et al.
Year: 2024
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Recent advances in wet surface tissue adhesive hydrogels for wound treatment
Authors: A Basit, H Yu, L Wang, MA Uddin, Y Wang, KM Awan, BE Keshta, et al.
Year: 2024
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Cost-effective synthesis of MIL-101 (Cr) from recyclable wastes and composite with polyaniline as an ion-to-electron transducer for potentiometric Pb2+ sensing
Authors: BE Keshta, H Yu, L Wang, MA Uddin, HG El-Attar, AE Keshta, AH Gemeay, et al.
Year: 2024
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A state-of-the-art review on green synthesis and modifications of ZnO nanoparticles for organic pollutants decomposition and CO2 conversion
Authors: ZU Zango, A Garba, FB Shittu, SS Imam, A Haruna, MU Zango, IA Wadi, et al.
Year: 2025
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Influence of Synthesis and Functionalization Procedures of Fe3O4 NPs by Mono- and Diamino Silane Coupling Agents on the Adsorption Efficiency of Anionic Dyes
Authors: BE Keshta, AH Gemeay
Year: 2022