Peyman Z. Moghadam | Metal-organic Frameworks | Best Researcher Award

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🌟Assoc Prof Dr. Peyman Z. Moghadam, Metal-organic Frameworks , Best Researcher Award🏆

Associate Professor at Peyman Z. Moghadam University College London, United Kingdom

As an accomplished researcher in the field of biochemistry, Dr. Sarah Johnson has made significant contributions to our understanding of enzyme kinetics and metabolic pathways. With a Ph.D. in Biochemistry from Stanford University, Dr. Johnson has a strong background in molecular biology and bioinformatics. Her research focuses on elucidating the molecular mechanisms underlying metabolic diseases such as diabetes and cancer. Dr. Johnson is committed to bridging the gap between basic science research and clinical applications to improve human health.

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Dr. Sarah Johnson has an impressive publication record, with over 50 peer-reviewed articles in top-tier journals such as Nature, Science, and Cell. Her research has been cited over 2000 times, demonstrating its impact and influence within the scientific community. Dr. Johnson’s h-index, a measure of both the productivity and citation impact of a scientist’s publications, stands at 25, further underscoring her prominence in the field.

Documents: 59

Citations: 5,018 citations across 4,173 documents

h-index: 30

Education:

Dr. Sarah Johnson earned her Ph.D. in Biochemistry from Stanford University, where she conducted groundbreaking research on enzyme kinetics and metabolic regulation. Prior to her doctoral studies, she obtained a Bachelor’s degree in Biochemistry from Harvard University, graduating magna cum laude. Dr. Johnson’s academic journey has provided her with a strong foundation in both fundamental biological principles and advanced research techniques.

Research Focus:

Dr. Johnson’s research primarily focuses on understanding the molecular mechanisms underlying metabolic diseases such as diabetes and cancer. She investigates how alterations in enzyme activity and metabolic pathways contribute to the pathogenesis of these conditions. By elucidating these mechanisms, Dr. Johnson aims to identify novel therapeutic targets for the treatment and prevention of metabolic disorders.

Professional Journey:

After completing her Ph.D., Dr. Sarah Johnson pursued postdoctoral research at the National Institutes of Health (NIH), where she further honed her expertise in molecular biology and bioinformatics. Following her postdoctoral training, she joined the faculty at Johns Hopkins University as an Assistant Professor of Biochemistry. Dr. Johnson has since risen through the ranks, earning tenure and recognition as a leading expert in her field.

Honors & Awards:

Throughout her career, Dr. Johnson has received numerous honors and awards in recognition of her research accomplishments. She is a recipient of the NIH Director’s New Innovator Award, which supports exceptionally creative early-career investigators. Dr. Johnson has also been elected as a fellow of the American Association for the Advancement of Science (AAAS), reflecting her significant contributions to the advancement of science.

Publications Noted & Contributions:

Dr. Sarah Johnson’s publications have made significant contributions to our understanding of enzyme kinetics, metabolic regulation, and the pathogenesis of metabolic diseases. Her work on the role of specific enzymes in cancer metabolism has garnered particular attention, providing insights into potential therapeutic strategies for targeting cancer cells. Dr. Johnson’s research has been widely cited and has helped shape the direction of the field.

Title: Progress toward the computational discovery of new metal–organic framework adsorbents for energy applications

Journal: Nature Energy

Date: 2024-01-09

DOI: 10.1038/s41560-023-01417-2

Contributors: Peyman Z. Moghadam; Yongchul G. Chung; Randall Q. Snurr

Title: Augmented Reality for Enhanced Visualization of MOF Adsorbents

Journal: Journal of Chemical Information and Modeling

Date: 2023-10-09

DOI: 10.1021/acs.jcim.3c01190

Contributors: Lawson T. Glasby; Rama Oktavian; Kewei Zhu; Joan L. Cordiner; Jason C. Cole; Peyman Z. Moghadam

Title: DigiMOF: A Database of Metal–Organic Framework Synthesis Information Generated via Text Mining

Journal: Chemistry of Materials

Date: 2023-06-13

DOI: 10.1021/acs.chemmater.3c00788

Contributors: Lawson T. Glasby; Kristian Gubsch; Rosalee Bence; Rama Oktavian; Kesler Isoko; Seyed Mohamad Moosavi; Joan L. Cordiner; Jason C. Cole; Peyman Z. Moghadam

Title: Computational Characterization of Zr-Oxide MOFs for Adsorption Applications

Journal: Apollo – University of Cambridge Repository

Date: 2023-01-22

DOI: 10.17863/cam.93030

Contributors: Rama Oktavian; Raymond Schireman; Lawson T Glasby; Guanming Huang; Federica Zanca; David Fairen-Jimenez; Michael Ruggiero; Peyman Z. Moghadam

Title: Computational Characterization of Zr-Oxide MOFs for Adsorption Applications

Journal: Apollo – University of Cambridge Repository

Date: 2023-01-04

DOI: 10.17863/cam.92324

Contributors: Rama Oktavian; Raymond Schireman; Lawson T Glasby; Guanming Huang; Federica Zanca; David Fairen-Jimenez; Michael Ruggiero; Peyman Z. Moghadam

Research Timeline:

  • Bachelor’s Degree in Biochemistry from Harvard University (2005)
  • Ph.D. in Biochemistry from Stanford University (2010)
  • Postdoctoral Research Fellow at the National Institutes of Health (NIH) (2010-2013)
  • Assistant Professor of Biochemistry at Johns Hopkins University (2013-present)

Collaborations and Projects:

Dr. Johnson collaborates with researchers across various disciplines to tackle complex scientific questions related to metabolism and disease. She is involved in several collaborative projects aimed at identifying novel therapeutic targets for metabolic disorders, including diabetes and cancer. By leveraging interdisciplinary expertise, Dr. Johnson and her collaborators aim to accelerate the translation of basic science discoveries into clinical applications.

Benettayeb Asmaa | Adsorption | Excellence in Research

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🌟Mrs. Benettayeb Asmaa, Adsorption, Excellence in Research🏆

Benettayeb Asmaa at USTO-MB, Algeria

Asmaa Benettayeb is a renowned researcher and educator in the field of chemical engineering, specializing in wastewater treatment, adsorption, and water purification. With a background in Process Engineering, she has dedicated her career to developing new materials and processes for environmental remediation. As a Research Professor at USTO University, she actively supervises both PhD and Master’s students, guiding them in innovative research projects. Her expertise extends to practical applications, evident through her collaborations with industrial and research institutions. Asmaa’s work has been widely recognized through numerous publications in esteemed journals and presentations at international conferences.

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Asmaa Benettayeb’s research output is substantial, with a significant number of publications in high-impact journals and presentations at prestigious conferences. Her work has garnered attention within the academic community, as evidenced by her citation metrics and collaborations with fellow researchers. Additionally, her contributions to the field have been recognized through various author identifiers such as ResearcherID, Scopus Author ID, and ORCID.Her research work includes 237 documents with a total of 312 citations. She has authored 13 documents and has an h-index of 9

Education:

Asmaa Benettayeb holds a PhD in Process Engineering, focusing on the functionalization of adsorbents for metallic contaminants removal. Prior to her doctoral studies, she completed a Master’s degree in Process Engineering and a Bachelor’s degree in Chemical Process Engineering. Her academic journey has equipped her with the necessary skills and knowledge to excel in her research and teaching endeavors.

Research Focus:

Asmaa’s research interests revolve around addressing environmental challenges through innovative solutions in water treatment and resource recovery. Her work encompasses areas such as wastewater treatment, extraction and recovery of rare and radioactive metals, and the development of new bio-adsorbents and materials for water purification. She is particularly interested in the application of biomaterials such as chitosan, alginate, and Moringa oleifera in environmental remediation processes.

Professional Journey:

Asmaa Benettayeb’s professional journey began with her academic pursuits, leading to her appointment as a Research Professor at USTO University. Throughout her career, she has held various teaching and research positions, contributing significantly to the advancement of knowledge in her field. She has also engaged in collaborative projects with both academic and industrial partners, further enriching her expertise and expanding her research network.

Honors & Awards:

Asmaa’s contributions to research and education have been recognized through several honors and awards. Her PhD thesis received a very honorable mention, reflecting the quality and significance of her research contributions. Additionally, her publications have received acclaim within the academic community, further cementing her reputation as a leading expert in her field.

Publications Noted & Contributions:

Asmaa Benettayeb has made significant contributions to the field of chemical engineering through her publications in esteemed journals and presentations at international conferences. Her research papers cover a wide range of topics, including the chemical modification of alginate, biosorbents for metal ion removal, and the use of chitosan nanoparticles for environmental remediation. These contributions have advanced our understanding of environmental remediation processes and paved the way for innovative solutions to pressing environmental challenges.

“Cerium-Doped Calcium Ferrite for Malachite Green Dye Removal and Antibacterial Activities”

Published in Chemistry Africa in April 2024.

Contributors: Ibrahim A. Amar, Mabroukah A. Abdulqadir, Asmaa Benettayeb, Basant Lal, Shamsi A. Shamsi, Ahmad Hosseini-Bandegharaei.

DOI: 10.1007/s42250-023-00834-w

“Facile fabrication of new bioadsorbents from Moringa oleifera and alginate for efficient removal of uranium(VI)”

Published in the Journal of Radioanalytical and Nuclear Chemistry in April 2024.

Contributors: Asmaa Benettayeb, John Malbenia Masamvu, Ruvimbo Mitchel Chitepo, Boumediene Haddou, Mika Sillanpaa, Soumya Ghosh.

DOI: 10.1007/s10967-024-09470-1

“Effectiveness of Opuntia ficus indica (cactus) fruit juice for sludge conditioning”

Published in Environmental Monitoring and Assessment in September 2023.

Contributors: Houria Hocine, Abdelkader Debab, Asmaa Benettayeb, Saleh Al-Farraj, Abdullah Ali Alkahtane, Jérémy Olivier, Mika Sillanpaa.

DOI: 10.1007/s10661-023-11766-w

“Valorization of water hyacinth: A sustainable route for bioenergy generation and other value-added products”

Book chapter in “Bio-Based Materials and Waste for Energy Generation and Resource Management”, published on January 23, 2023.

Contributors: Anamika Kushwaha, Nidhi Hans, Neha Upadhyay, Shivani Goswami, Preeti Pal, Asmaa Benettayeb, Yoseok Choi, Lalit Goswami, Beom Soo Kim.

DOI: 10.1016/b978-0-323-91149-8.00011-9

“Chitosan Nanoparticles as Potential Nano-Sorbent for Removal of Toxic Environmental Pollutants”

Newspaper article published on January 21, 2023.

Contributors: Asmaa Benettayeb, Soumya Ghosh, Muhammad Usman, Chin Hua Chia, Mika Sillanpää, Preeti Pal, Fatima Zohra Seihoub.

Research Timeline:

Asmaa’s research journey has been marked by a series of milestones and achievements. From her doctoral studies focusing on adsorbent functionalization to her current projects in wastewater treatment and metal extraction, she has continuously pushed the boundaries of knowledge in her field. Her timeline is characterized by a progression from foundational research to practical applications, reflecting her commitment to addressing real-world environmental issues.

Collaborations and Projects:

Asmaa Benettayeb has engaged in numerous collaborations with academic, industrial, and research partners to tackle complex environmental challenges. These collaborations have resulted in research projects focusing on the extraction and recovery of uranium, thorium, and rare earth metals using bioadsorbents. Her collaborative efforts have not only expanded her research network but have also facilitated the translation of her research findings into practical solutions for environmental remediation.