Prof. Dr. Mohamad Al-Jeboori | Synthetic chemistry Award | Best Researcher Award
Prof. Dr. Mohamad Al-Jeboori, University of Baghdad , Iraq
Prof. Mohamad J. Al-Jeboori is a distinguished scholar in Synthetic and Coordination Chemistry with a Ph.D. in Chemistry for Radiopharmaceutical Applications. He has over 20 years of academic experience, having served as Head of the Department of Chemistry and Head of the Scientific Committee at the College of Education for Pure Science (Ibn Al-Haitham), University of Baghdad. He has also held prestigious positions as a Visiting Professor at Queen Mary University of London and a researcher at Imperial College London. Prof. Al-Jeboori founded a multidisciplinary research group focused on biomedical imaging agents, polymer-supported metal extraction, clean energy, and environmental sustainability. His work has garnered over 900 citations, establishing him as a leader in the fields of chemistry, environmental sciences, and clean energy solutions.
Professional Profile:Ā
Summary of Suitability for Award:
Professor Mohamad J. Al-Jebooriās pioneering research, innovative contributions to various industries, and mentorship of the next generation of scientists make him an outstanding candidate for the “Best Researcher Awards.” His deep commitment to advancing scientific knowledge, his global collaborations, and his significant impact on key areas of chemistry demonstrate that he is highly deserving of this recognition.His innovative work in the synthesis of functionalised chelate systems for biomedical imaging and the development of polymer-supported materials for industrial applications has had a significant impact on various fields, including environmental sustainability and carbon capture technologies.His extensive publication record, with numerous articles in renowned journals and his involvement in cutting-edge research projects, underscores his position as a thought leader in his field.
šEducation:
Prof. Mohamad J. Al-Jeboori earned his Ph.D. in Chemistry for Radiopharmaceutical Applications, where his research concentrated on developing functionalised chelate systems for imaging and therapeutic purposes. His educational background has equipped him with expertise in synthetic and coordination chemistry, leading to groundbreaking work in the development of metal complexes for biomedical and environmental applications. Alongside his doctorate, he has gained substantial international exposure through his role as a visiting scholar and researcher at renowned institutions such as Queen Mary University of London and Imperial College London. His academic pursuits have always been aligned with advancing the integration of coordination chemistry into real-world applications, such as clean energy solutions, biomedical imaging, and environmental sustainability. His education has not only laid the foundation for his career but also inspired his commitment to fostering the next generation of researchers in chemistry and interdisciplinary fields.
š¢Work Experience:
Prof. Mohamad J. Al-Jeboori has accumulated over two decades of academic experience, holding key leadership roles at the University of Baghdad, including Head of the Department of Chemistry and Head of the Scientific Committee at the College of Education for Pure Science (Ibn Al-Haitham). His work extends beyond teaching, as he has played a pivotal role in establishing a multidisciplinary research group focused on the design and development of coordination complexes for biomedical imaging, environmental remediation, and clean energy applications. Prof. Al-Jeboori has also served as a Visiting Professor at Queen Mary University of London and Imperial College London, gaining valuable insights into cutting-edge research and collaborating with leading scientists in the fields of coordination chemistry and radiopharmaceutical applications. In addition to his academic roles, he has collaborated on several industrial projects in the areas of polymer science and inorganic chemistry, showcasing his ability to bridge academia and industry effectively.
š Awards:
Prof. Mohamad J. Al-Jeboori has received several accolades for his outstanding contributions to chemistry and research. His achievements in synthetic and coordination chemistry, particularly in radiopharmaceutical applications, have earned him recognition in both academic and industrial circles. As a result of his research, he has been awarded numerous grants and has served as a principal investigator on funded projects that address pressing global challenges in energy and environmental sustainability. Prof. Al-Jebooriās scholarly work is widely cited, with over 900 citations in reputable databases like Scopus and Web of Science, underscoring his influence in the field. In addition to his research accolades, Prof. Al-Jebooriās commitment to fostering young researchers and his leadership in academic settings have earned him professional honors and respect from colleagues and institutions alike. His ability to innovate in the areas of green chemistry and renewable energy has also contributed to his recognition within scientific communities.
š¬Research Focus:
Prof. Mohamad J. Al-Jeboori’s research focus is on synthetic and coordination chemistry, with a particular emphasis on the development of functionalized chelate systems for biomedical imaging, metal extraction, and environmental applications. His work in radiopharmaceuticals involves the creation of novel metal complexes, particularly those using technetium-99m and rhenium for diagnostic and therapeutic purposes. He also investigates advanced materials for clean energy, including the synthesis of organotransition metal complexes for solar cell development, utilizing low-cost transition metals. Prof. Al-Jebooriās environmental research includes the development of polymer-supported chelate systems for metal extraction and waste treatment, as well as the enhancement of calcium-based sorbents for COā capture in carbon capture technologies. His ongoing research on novel ligands and bioactive molecules further explores the intersection of coordination chemistry with biological activity, while computational methods like DFT and molecular docking are utilized to predict and optimize the properties of new compounds.
Publication Top Notes:
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The calcium looping cycle for CO2 capture from power generation, cement manufacture, and hydrogen production
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Citations: 461
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Improvement of Limestone-Based CO2 Sorbents for Ca Looping by HBr and Other Mineral Acids
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Citations: 71
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Effects of Different Dopants and Doping Procedures on the Reactivity of CaO-based Sorbents for CO2 Capture
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Citations: 67
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Steam-enhanced calcium looping cycles with calcium aluminate pellets doped with bromides
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Citations: 58
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Coordination of carbonyl oxygen in the complexes of polymeric N-crotonyl-2-hydroxyphenylazomethine
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Citations: 49
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