Mohammed Al Bahri | Materials Science | Best Researcher Award

Dr. Mohammed Al Bahri | Materials Science | Best Researcher Award

A'Sharqiyah University | Oman

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🎓 Early Academic Pursuits

Dr. Mohammed Al Bahri's academic journey began with a Bachelor’s degree in Physics from the College of Education at Sultan Qaboos University in 1998. He then pursued a Master’s degree in Physics in 2010, where his thesis focused on the "Morphology Dependent Assembly of CuO Nanoparticles." Under the guidance of Prof. Salim Al Harthi, Dr. Al Bahri demonstrated an early interest in nanomaterials. His academic achievements culminated in a Ph.D. in 2018, where he specialized in "Magnetic Nanowires for High Density and Low Power Information Storage" under the mentorship of Prof. Rachid Sbiaa. His Ph.D. work was supported by a full scholarship from the Ministry of Education, further showcasing his potential as a promising researcher.

💼 Professional Endeavors

Dr. Al Bahri's professional career spans over two decades, starting as a Physics teacher in secondary schools in Oman (1998-2001). He later transitioned to leadership roles within the Ministry of Education, such as the Head of the Monitoring Student Achievement Department (2012-2018), where he led a team of assessment officers and contributed to the development of student assessment policies. In academia, he became an Assistant Professor at A'Sharqiyah University in 2018, eventually rising to Associate Professor in 2023. His teaching contributions extend across multiple departments, including Applied and Health Sciences, Engineering, and Education. Additionally, he has played a key role in academic program development, internal reviews, and community engagement.

🧑‍🔬 Contributions and Research Focus

Dr. Al Bahri's research interests are primarily focused on magnetic nanowires, nanodevices, and their applications in information storage. His scholarly work includes publishing 13 articles in reputable journals like the Journal of Magnetism and Magnetic Materials and Nanomaterials. With 126 citations in Google Scholar, his research has had a notable impact on the field of nanotechnology. Dr. Al Bahri’s work often addresses critical issues in magnetic domain walls and storage devices, contributing significantly to advancements in nanodevice technology.

🏆 Accolades and Recognition

Throughout his career, Dr. Al Bahri has received numerous accolades. He was awarded the "Best Physics Teacher" by the Ministry of Education in 2002. More recently, in 2022-2023, he was recognized as the "Best Researcher" at A'Sharqiyah University. His work has garnered international attention, with him being among the top 50 academic researchers in Asia for 2022. He has also received prestigious research awards, including the Best Research Award from the International Research Awards (IIRA-2022) and the New Science Inventions (NESIN) 2020 Awards.

🌍 Impact and Influence

Dr. Al Bahri’s influence extends beyond academia into community service. He has conducted various seminars and workshops for teachers and students, contributing to public education. His leadership in developing academic programs and policies, both at the university and ministry levels, has shaped educational practices in Oman. His research in nanotechnology also offers potential solutions to global challenges in data storage and energy efficiency, reflecting his broad impact.

🏅 Legacy and Future Contributions

As a dedicated educator, researcher, and academic leader, Dr. Al Bahri’s legacy is rooted in his contributions to both physics education and nanotechnology research. His ongoing work in magnetic nanodevices holds promise for future advancements in high-density storage technologies. His role in academic program development and his influence on education policy will likely continue to shape the next generation of Omani scientists and educators.

 

Publications


  • 📖Vortex Domain Wall Thermal Pinning and Depinning in a Constricted Magnetic Nanowire for Storage Memory Nanodevices
    Journal: Nanomaterials
    Authors: Mohammed Al Bahri, Salim Al-Kamiyani, Al Maha Al Habsi
    Year: 2024

  • 📖Thermal Effects on Domain Wall Stability at Magnetic Stepped Nanowire for Nanodevices Storage
    Journal: Nanomaterials
    Authors: Mohammed Al Bahri, Salim Al-Kamiyani
    Year: 2024

  • 📖Chirality‐Dependent Dynamics and Pinning of Transverse Domain Wall in Constricted Nanowires
    Journal: physica status solidi (a)
    Authors: Mohammed Al Bahri, Rachid Sbiaa
    Year: 2024

  • 📖Multi-segmented Nanowires for Vortex Magnetic Domain Wall Racetrack Memory
    Journal: Chinese Physics B
    Authors: M. Al Bahri, M. Al Hinaai, T. Al Harthy
    Year: 2023

  • 📖Noise Measurements in Industrial Areas in North A' Sharqiyah Region - Oman
     Journal: International Journal of Research and Innovation in Applied Science
    Authors: M. Al Bahri
    Year: 2022

 

Rufina Zilberg | Chemistry | Best Researcher Award

Mrs. Rufina Zilberg | Chemistry | Best Researcher Award

Ufa University of Science and Technology | Russia

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Early Academic Pursuits

Mrs. Rufina Zilberg commenced her academic journey by acquiring a degree in Chemistry from Bashkir State University in 2003. She continued her pursuit of knowledge, culminating in the attainment of a Candidate of Chemical Sciences and Docent degrees, signifying her dedication and expertise in the field.

Professional Endeavors

Currently serving as an Associate Professor at Ufa University of Science and Technology, Mrs. Zilberg has devoted herself to the Department of Analytical Chemistry. Throughout her career, she has contributed significantly to the realm of electroanalytical chemistry and chemically modified electrodes, particularly in the development of enantiosensors.

Contributions and Research Focus

With over 200 publications to her credit, including a monograph and two reviews, Mrs. Zilberg's research focuses on voltammetric sensors and multisensory systems. Her pioneering work revolves around the recognition of enantiomers of antiarrhythmic drugs and vital amino acids. She has extensively explored composite materials for sensor construction, such as polyarylene phthalides and chitosan with various additives, resulting in groundbreaking advancements in sensor technology.

Accolades and Recognition

Mrs. Zilberg's prolific research endeavors have garnered recognition both nationally and internationally. Her scholarly contributions have earned her a Hirsch index of 12 in Web of Science and 21 in the Russian Science Citation Index (RSCI). Additionally, under her guidance, her students have achieved notable success in prestigious competitions, such as the UMNIK competition and the Student STARTUP.

Impact and Influence

The impact of Mrs. Zilberg's work extends beyond the academic realm. Her research findings, disseminated through esteemed journals, have not only advanced scientific knowledge but also hold promise for practical applications, particularly in pharmaceutical analysis. Her innovative approaches to sensor design and her commitment to excellence have inspired countless peers and students alike.

Legacy and Future Contributions

As Mrs. Zilberg continues her scholarly journey, her legacy is one of unwavering dedication to advancing the frontiers of analytical chemistry. Her future contributions are poised to further revolutionize sensor technology, offering novel solutions to complex analytical challenges and leaving an indelible mark on the field for generations to come.

Notable Publications

Chiral Octahedral Cobalt(III) Complex Immobilized on Carboblack C as a Novel Robust and Readily Available Enantioselective Voltammetric Sensor for the Recognition of Tryptophan Enantiomers in Real Samples 2024

A Voltammetric Sensor Based on Aluminophosphate Zeolite and a Composite of Betulinic Acid with a Chitosan Polyelectrolyte Complex for the Identification and Determination of Naproxen Enantiomers 2023 (2)