Bushra Moharram | natural product researcher | Women Researcher Award

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Assoc. Prof. Dr Bushra Moharram | natural product researcher| Women Researcher Award

lecturer ,faculty of pharmacy, Sana’a University,Yemen.

Dr. Bushra Abdulkarim Moharram is a highly qualified and well-established researcher in pharmacognosy and natural product chemistry. Her academic excellence, research contributions, and leadership make her a strong candidate for the Research for Women Researcher Award. Her work is not only scientifically significant but also societally impactful, particularly in regions where medicinal plants play a crucial role in healthcare

Publication Profile
google scholar

Education :

Dr. Moharram holds a Ph.D. in Natural Product Chemistry from Universiti Kebangsaan Malaysia (UKM), where she focused on bioactive compounds derived from medicinal plants. She also earned a Master’s degree in Natural Product Chemistry from UKM and completed her Bachelor of Pharmacy at Sana’a University, Yemen.

Experience :

With years of academic and research experience, Dr. Moharram has played a key role in advancing pharmacognosy education at Sana’a University. She has supervised numerous postgraduate students and contributed significantly to curriculum development. Her expertise extends to laboratory research, analytical chemistry techniques, and collaborations with international scholars in natural medicine and phytochemistry.

Research Focus :

Dr. Moharram’s research primarily revolves around the isolation, characterization, and pharmacological evaluation of bioactive compounds from medicinal plants. She explores their potential applications in treating diseases such as cancer, diabetes, and microbial infections. Her work integrates traditional knowledge with modern scientific methodologies to validate the medicinal properties of indigenous plants.

SKILLS:

She possesses extensive expertise in phytochemical analysis, chromatography, spectroscopy, and bioassays. Additionally, her skills include scientific writing, grant proposal development, and academic mentorship. Her multidisciplinary approach allows her to bridge the gap between traditional medicine and contemporary pharmaceutical sciences.

AWARDS:

Dr. Moharram’s contributions to natural product research have been recognized through various academic awards and research grants. She has received accolades for her publications and presentations at international conferences. Her work has been widely cited, reflecting its impact on the field of pharmacognosy.

Publication :

        1. Moharram, B. A., Al-Maqtari, T., Alomaisi, S. A. M. A., Al-Madhagi, W. M., Al-Hakami, I. A., & Al-Mahbashi, H. M. (2025). Exploring the bioactive compounds and anticoagulant effects of Bidens pilosa cultivated in Yemen through chromatographic and molecular docking approaches. Pharmacological Research – Natural Products, 6, 100174. https://doi.org/10.1016/j.prenap.2025.100174

        2. Moharram, B. A., Alburyhi, M. M., Al-Maqtari, T., & Faisa, A. (2025). Evaluating the antidiabetic activity of Aloe niebuhriana latex in alloxan-induced diabetic rats and the development of a novel effervescent granule-based delivery system. The Scientific World Journal, 2025, Article ID 5648662, 13 pages. https://doi.org/10.1155/tswj/5648662

        3. Al-Ansi, Z., Masaoud, M., Hussein, K., Moharram, B., & Al-Madhagi, W. M. (2024). Antibacterial and antioxidant activities of triterpenoids isolated from endemic Euphorbia arbuscula stem latex. Advances in Pharmacological and Pharmaceutical Sciences, 2024. https://doi.org/10.1155/2024/8273789

        4. Moharram, B. A., Al-Mahbashi, H. M., Al-Maqtari, T., Saif-Ali, R., Al-Hakami, I. A., & Alhaj, W. T. (2023). Leaves of Capparis cartilaginea exhibit promising antidiabetic activity in alloxan-induced diabetic rats. International Journal of Pharmaceutical Research and Allied Sciences, 12(4), 65-75. https://doi.org/10.51847/bS3uSTpfJd

        5. Haseeb, A., Fozia, Ahmad, I., Ullah, H., Iqbal, A., Ullah, R., Moharram, B. A., & Kowalczyk, A. (2022). Ecotoxicological assessment of heavy metals and their biochemical effects in fishes. BioMed Research International, 2022. https://doi.org/10.1155/2022/3787838

        6. Alhaj, W. T., Moharram, B. A., Al-Maqtari, T., Al-Mahbashi, H. M., & Al-Doaiss, A. A. (2022). The potential of Jatropha variegata fruits as a natural contraceptive: Antifertility activity and phytochemical analysis. Evidence-Based Complementary and Alternative Medicine, 2022.

        7. Assouguem, A., Kara, M., Ramzi, A., Annemer, S., Kowalczyk, A., Ali, E. A., Moharram, B. A., Lazraq, A., & Farah, A. (2022). Evaluation of the effect of four bioactive compounds in combination with chemical products against two spider mites (Tetranychus urticae and Eutetranychus orientalis) (Acari: Tetranychidae). Evidence-Based Complementary and Alternative Medicine, 2022. https://doi.org/10.1155/2022/2004623

        8. Gylan, E. M. A., Moharram, B. A., Al-Kholani, A. I. M., Al-Haddad, K. A., Al-Akwa, A. A. Y., Al-Shamahy, H. A., Al-Hamzi, M. A., & Al-Labani, M. A. (2022). In vitro evaluation of the antimicrobial activity of five herbal extracts against Streptococcus mutans. Universal Journal of Pharmaceutical Research, 7(1), 37-44.

        9. Moharram, B. A., Al-Mahbashi, H. M., Al-Maqtari, T., & Saif-Ali, R. (2021). Aloe irafensis, an endemic plant of Yemen: Phytochemical screening, antibacterial, antioxidant, and wound healing activities. Asian Journal of Pharmaceutical and Clinical Research, 14(10), 88-94.

        10. Moharram, B. A., Al-Maqtari, T., Al-Doaiss, A. A., & Dhabali, A. A. H. (2020). Antioxidant, antimicrobial, and wound healing potential of Jatropha variegata—An interesting plant endemic to Yemen. Pakistan Journal of Biological Sciences, 32, 1581-1590.

conclusion:

Her multilingual abilities, strong research output, and mentorship in academia further support her suitability for this recognition. While she already has a strong international footprint, expanding collaborations and translational research applications could further enhance her contributions.

 

 

 

Vyacheslav Klyukhin | Magnetostatics| Best Researcher Award

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Dr.VyacheslavKlyukhin|Magnetostatis| Best Researcher Award

Dr Vyacheslav Klyukhin CERN, Switzerland.

Dr. Vyacheslav Klyukhin is a Senior Scientific Researcher at the Skobeltsyn Institute for Nuclear Physics, Moscow State University, and a key member of the CMS experiment at CERN, Switzerland. With over 50 years of experience in experimental physics, he has made significant contributions to the modeling and measurement of magnetic fields, particularly for the world’s largest superconducting solenoid used in the CMS detector. His expertise in 3D modeling and field measurements has been integral to the precise simulation and reconstruction of particle physics events. Dr. Klyukhin has published over 1300 scientific papers and is renowned for his work in magnetic systems for high-energy physics experiments.

Publication Profile

Google Scholar

Education :

Dr. Vyacheslav Klyukhin has over 50 years of experience in experimental physics and computing. He has made significant contributions to numerous scientific endeavors, especially within the realm of particle physics and magnetic field measurement. His work has largely been within the CERN, Dubna (Russia), and Moscow State University systems, but has also extended to international collaborations such as Fermilab, CEA/Saclay, and several other prestigious institutions.

Experience :

Senior Scientific Researcher at Skobeltsyn Institute for Nuclear Physics (Moscow State University, Russia) (since August 10, 2002): Dr. Klyukhin has worked extensively on the CMS experiment at CERN, specifically focusing on modeling and measuring magnetic fields for the CMS magnet and the world’s largest superconducting solenoid.Project Associate, CERN (from November 1, 2002 to October 31, 2007): He was part of the CMS experiment, contributing to the development of the TOSCA 3D model of the CMS magnet and performing field measurements within the superconducting coil.Guest Scientist at Fermilab (1999-2002): He contributed to the design and R&D for the CMS magnetic system, providing important software tools for field simulations and measurements.Senior Scientific Researcher at the Institute for High Energy Physics (IHEP), Protvino, Moscow, Russia (1974-2000): Dr. Klyukhin began his career here, working on particle physics experiments and the design of magnetic systems.

Research Focus :

Dr. Klyukhin’s primary research focus is on the development and refinement of magnetic field models for particle detectors, particularly in the context of large-scale superconducting solenoids. His work on the CMS experiment has led to the creation of highly accurate models for the magnetic field, used to support event reconstruction and precision measurements in high-energy particle physics. His contributions are pivotal to understanding and monitoring the magnetic field behavior in particle detectors, essential for experiments like those conducted at CERN.

CMS Magnet Modeling and Simulation: Dr. Klyukhin developed the CMS magnet TOSCA model, which matches measured magnetic field data with precision, ensuring the reliability of particle momentum measurements for Higgs boson decays.Magnetic Field Measurement: He has conducted extensive magnetic field mapping, including 33,840 measurement points within the CMS magnet, using cutting-edge technologies such as 3D Hall probes.Development of Field Mapping Systems: Dr. Klyukhin was instrumental in creating the CMS fieldmapping machine and the flux loop measurement systems used in monitoring the CMS magnet.

Awards:

Dr. Vyacheslav Klyukhin has been recognized for his outstanding contributions to experimental physics, particularly in the area of particle detector technology and magnetic field measurements. His work has earned him a Hirsch index of 100 in the Web of Science system, underscoring his substantial impact on the field through his publications.

Additionally, his participation in groundbreaking experiments such as the CMS and D0 projects, and his leadership in magnetic field modeling and measurement at CERN, has made him a key figure in the scientific community.

Skills:

3D Modeling & Simulation: Dr. Klyukhin has extensive experience using TOSCA to model complex magnetic systems, specifically for CMS at CERN, and has also created simulation tools for other particle detectors such as D0.Magnetic Field Measurement: He has developed and used systems to measure magnetic flux density using Hall probes, NMR probes, and flux loops with an impressive precision.Superconducting Magnet Systems: Dr. Klyukhin’s work involves a deep understanding of superconducting solenoids and their application in experimental setups such as the CMS experiment.Scientific Computing: Extensive background in computational physics, especially in the field of particle detector simulations and event reconstruction.

Publication :

Dr. Klyukhin has published more than 1325 scientific papers in refereed journals, reflecting his longstanding commitment to advancing the field of experimental particle physics. His research spans various topics within detector systems, magnetic field modeling, and event reconstruction, with significant contributions to the understanding of the CMS magnetic system and its applications in high-energy physics experiments.

Observation of a new boson at a mass of 125 GeV with the CMS experiment at the LHC

The CMS experiment at the CERN LHC

Conclusion

Dr. Vyacheslav Klyukhin is a distinguished researcher and scientist with a career spanning over five decades in experimental physics. His work in the field of magnetic systems for particle detectors, particularly in relation to the CMS experiment at CERN, has made substantial contributions to the understanding of magnetic fields in high-energy physics. His expertise in computational modeling, field measurement systems, and his leadership in international research projects have established him as a key figure in his field.

sachin tejyan |composite| Best Faculty Award

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Dr. sachin tejyan |composite| Best Faculty Award

Assistant Professor, G B Pant Institute of Engineering and Technology, Pauri, India

Dr. Sachin Tejyan is an Assistant Professor at G. B. Pant Institute of Engineering and Technology, Pauri, India. He specializes in engineering and technology education, contributing to academic research and the professional development of students. Dr. Tejyan is dedicated to fostering innovation and excellence in his field.

Summary:

Dr. Sachin Tejyan exemplifies an accomplished academic and researcher with a robust portfolio in advanced materials, mechanical engineering, and polymer composites. His contributions to research, teaching, and institutional development are commendable. The consistent output in high-impact journals and recognition for his work demonstrate excellence in his domain. However, there is room to amplify his interdisciplinary reach and international presence.

 

Professional Profiles:

Scopus

🎓 Education :

Dr. Sachin Tejyan holds a Ph.D. from the National Institute of Technology, Hamirpur, specializing in the “Thermo-Mechanical and Erosive Wear Behaviour of Needle-Punched Nonwoven Fiber Reinforced Polymer Composites.” He earned his M.Tech from the same institute in 2009, following a B.Tech in Mechanical Engineering from UPTU, Lucknow, in 2007.

 

🏢 Experience:

Dr. Tejyan is an Assistant Professor in the Mechanical Engineering Department at G. B. Pant Institute of Engineering and Technology, Pauri, Uttarakhand. His responsibilities include teaching, mentoring graduate and doctoral students, and overseeing projects in advanced material science. He has guided five M.Tech and two Ph.D. students and has also taken on various administrative roles, such as hostel warden and laboratory coordinator.

🛠️Skills:

Dr. Tejyan possesses expertise in advanced material research, particularly polymer composites and nonwoven reinforced materials. His skills extend to simulation, modeling, and experimental design, with a focus on manufacturing processes, material characterization, and tribology. He is adept in research methodologies, including Taguchi analysis, and in facilitating workshops and training programs on advanced mechanical engineering topics.

Research Focus :

Dr. Tejyan’s research revolves around manufacturing and production, composite materials, natural fiber-reinforced composites, and friction stir welding. His doctoral thesis explored the use of needle-punched nonwoven fabric mats in epoxy-based polymer composites, examining properties such as thermal conductivity, visco-elasticity, and solid particle erosion. His work integrates practical applications, particularly in slurry pipe systems and material durability under erosive conditions.

🔬Awards:

Dr. Tejyan received the Excellent Paper Award in 2010 from the Research Journal of Textile and Apparel for his work on solid particle erosion behavior of needle-punched nonwoven reinforced composites.

Conclusion:

Dr. Sachin Tejyan is a strong candidate for the Research for Best Faculty Award. His prolific research achievements, leadership roles, and dedication to academic and professional growth position him as a deserving nominee. Efforts to diversify his research themes and strengthen international engagement would further solidify his stature as an exemplary faculty member.

 Publications:

    • Investigations of Microstructure, Impact Toughness, and Fatigue Failure Behavior of Bulk UFG Al–Li 8090 Alloy Processed by Multi-Axial Forging
      • Authors: Panwar, A., Joshi, A., Tejyan, S.
      • Journal: Sadhana – Academy Proceedings in Engineering Sciences
      • Citations: 0

 

    • Fabrication and Sliding Wear Characterization of Eggshell Particulate Reinforced AA6061 Alloy Metal Matrix Composites
      • Authors: Lal, C., Tejyan, S., Singh, V.
      • Journal: Tribology in Industry
      • Citations: 1

 

    • Enabling Sustainable Freight Transport with Longer, Heavier Vehicles in India
      • Authors: Singh, V., Tejyan, S., Kumar, S., Singh, T.
      • Journal: Case Studies on Transport Policy
      • Citations: 0

 

    • Viscoelastic and Thermomechanical Behavior of Nonwoven Reinforced Polymer Composites (Book Chapter)
      • Authors: Tejyan, S., Singh, V., Gangil, B.
      • Book: Dynamic Mechanical and Creep-Recovery Behavior of Polymer-Based Composites: Mechanical and Mathematical Modeling
      • Citations: 0

 

    • Introduction to Thermosetting Polymer Composites: Applications, Advantages, and Drawbacks (Book Chapter)
      • Authors: Gangil, B., Kumar, S., Tejyan, S., Ranakoti, L., Verma, S.
      • Book: Dynamic Mechanical and Creep-Recovery Behavior of Polymer-Based Composites: Mechanical and Mathematical Modeling
      • Citations: 2
    • Effect of HVOF Coatings on Abrasive Wear Behaviour of Martensitic Stainless Steel
      • Authors: Tejyan, S., Rana, S., Patnaik, A.
      • Journal: International Journal of Materials Engineering Innovation
      • Citations: 0

 

    • Abrasive Wear Study of Marble Dust Reinforced Al7075 Alloy Surface Composites: Developed by Friction Stir Processing
      • Authors: Tejyan, S., Kumar, N., Gariya, R.C., Singh, A.K.
      • Journal: International Journal of Materials Engineering Innovation
      • Citations: 2

 

    • Mechanical Properties of SiC and Neem Leaf Powder Reinforced Al-6063 Hybrid Metal Matrix Composites
      • Authors: Tejyan, S., Ror, C.K., Kumar, N.
      • Journal: Materials Today: Proceedings
      • Citations: 6

jie zhang | Comprehensive research| Best Researcher Award

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Dr . jie zhang | Comprehensive research| Best Researcher Award

Dr . jie zhang ,College of Meteorology and Oceanography, National University of Defense Technology,China

Professor Mohamed Abaza is a distinguished academic affiliated with the Arab Academy for Science, Technology & Maritime Transport (AASTMT) in Egypt. With a robust background in maritime education and research, Professor Abaza has contributed significantly to the field through both teaching and scholarly work. His expertise spans various aspects of maritime transport, technology, and logistics, making him a key figure in advancing the academy’s mission of providing high-quality maritime education. Professor Abaza’s work not only enriches the academic community but also supports the development of maritime practices in the region.

 

Professional Profiles:

Orcid

Summary:

Jie Zhang is a researcher specializing in planetary middle atmosphere studies, with a particular focus on Martian atmospheric dynamics. Their work delves into the vertical coupling processes and interactions between various atmospheric elements on Mars, contributing significantly to the understanding of Martian climate and atmospheric phenomena.

Education :

Jie Zhang holds a doctorate from the National University of Defense Technology in Changsha, China. They studied at the College of Meteorology and Oceanography, where they developed their expertise in atmospheric sciences and planetary atmospheres.

Work Experience:

While specific details of Jie Zhang’s professional roles are not provided, their extensive publication record and grant funding indicate a robust career in atmospheric and planetary sciences research, likely involving significant academic and research positions.

Awards and Honors:

,Jie Zhang’s receipt of significant grant funding from the National Natural Science Foundation of China highlights recognition of their research’s importance and impact.

Research Focus:

Jie Zhang’s research primarily centers on the atmospheric processes and dynamics of Mars. This includes the study of vertical interactions between atmospheric dust, winds, and tides, as well as the role of gravity waves. Their work also extends to understanding the impact of global dust storms on Martian atmospheric heating and the characterization of gravity waves using observational data. Through these studies, Jie Zhang contributes to the broader understanding of planetary atmospheres and their complex interactions, with a significant focus on Martian climate and atmospheric phenomena.

Publications 📚

  1. Jie Zhang has authored and co-authored numerous research papers in high-impact journals. Key publications include:
    1. Analysis of vertical interactions between dust, zonal wind, and diurnal tide on Mars (Remote Sensing, 2024).
    2. Study of atmospheric heating over the Tharsis Bulge of Mars and dust storms’ impact (Remote Sensing, 2024).
    3. Research on climatological gravity waves in Mars’ middle and upper atmosphere (The Astrophysical Journal, 2023).
    4. Compilation of Martian atmospheric wave perturbation datasets (Scientific Data, 2023).
    5. Investigation of inertial gravity waves over the Western Pacific (Journal of Geophysical Research: Atmospheres, 2021).
    6. Analysis of the 2019–20 Australian bushfires’ atmospheric impact (Frontiers in Earth Science, 2021).
    7. Study of the Arctic Oscillation Index and its influence during the 2019/2020 winter and spring (Frontiers in Earth Science, 2021).
    8. Spectrum analysis of gravity waves using airborne sounding systems (Sensors, 2020).