Ahmad Ranjbar | Density Functional Theory | Best Researcher Award

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Dr. Ahmad Ranjbar | Density Functional Theory | Best Researcher Award 

University of Paderborn | Germany 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Ahmad Ranjbar's academic journey began with a Bachelor's degree in Physics from Ferdowsi University of Mashhad, where he graduated with distinction. He then pursued a Master's degree in Condensed Matter Physics at Sharif University of Technology, focusing on first-principles calculations of many-body states for single nitrogen-vacancy defects in diamond. His PhD in Materials Science & Engineering from Tohoku University further honed his expertise, with a thesis on hydrogen adsorption on carbon-based materials, specifically applied to magnetism and energy storage.

PROFESSIONAL ENDEAVORS

Dr. Ranjbar has held several prestigious positions throughout his career. He is currently a Guest Scientist at the University of Paderborn, Germany, where he implements hybrid machine learning models and discovers novel materials. His previous roles include being a Research Scientist at Technische Universität Dresden and a Project Engineer at Steinbeis-Forschungszentrum quantUP, where he focused on computational investigations of gas sensors and numerical modeling of sputter deposition processes. His extensive experience also includes a Senior Research Scientist role at the University of Paderborn and a Postdoctoral Researcher position at RIKEN Center for Computational Science, where he conducted in-depth first-principles DFT investigations.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Ranjbar’s research is centered on Density Functional Theory (DFT) and its applications in materials science. His work includes developing functional materials for energy harvesting, storage, and photocatalysis. He has conducted pioneering research on MAX phases and 2D MXenes, exploring their electronic, magnetic, and quantum transport characteristics. His contributions also extend to the study of topological insulators, magnetic topological insulators, and gas sensors, where he has applied high-throughput computational screening and hybrid machine learning models.

IMPACT AND INFLUENCE

Dr. Ranjbar's work in Density Functional Theory and computational materials science has significantly influenced the field. His research on the catalytic activity of various phases of NiS2, the discovery of topological insulator materials, and the development of photocatalysts have been widely recognized. His ability to integrate machine learning with traditional computational methods has advanced the understanding and prediction of material properties, impacting both academic research and practical applications in energy and sensor technologies.

ACADEMIC CITES

Throughout his career, Dr. Ranjbar has authored numerous publications in high-impact journals. His expertise in Density Functional Theory and materials science has led to significant citations, highlighting the importance and relevance of his work. His research on 2D MXenes, photocatalytic materials, and gas sensors has been extensively cited, reflecting his contributions to advancing computational techniques and material innovations.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Ahmad Ranjbar's legacy is built upon his groundbreaking research in computational materials science and Density Functional Theory. His innovative approaches to integrating machine learning with first-principles modeling techniques have set new standards in the field. As he continues his work, Dr. Ranjbar is expected to make further advancements in the development of new materials for energy applications and sensor technologies. His commitment to education and collaboration ensures that his contributions will continue to influence future generations of scientists.

DENSITY FUNCTIONAL THEORY

Central to Dr. Ranjbar’s work is Density Functional Theory, a powerful computational method used to investigate the electronic structure of materials. His proficiency in DFT has enabled significant discoveries in various domains, including topological materials, MXenes, and gas sensors. Dr. Ranjbar’s expertise in DFT not only contributes to the theoretical understanding of material properties but also drives practical innovations in material design and application, underscoring the critical role of this theory in modern materials science.

NOTABLE PUBLICATION

Majid Bagherinia | Atomic Molecular | Best Researcher Award

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Dr. Majid Bagherinia | Atomic Molecular | Best Researcher Award

Ataturk University | Turkey

 

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Majid Bagherinia embarked on his academic journey with a strong foundation in civil engineering, fostering a passion for geotechnical research and ground improvement techniques.

PROFESSIONAL ENDEAVORS

As a Research Assistant at the Department of Civil Engineering, University of Ataturk, Majid Bagherinia dedicated eight years to investigating various aspects of geotechnical engineering. His work resulted in five publications in peer-reviewed scientific journals, one presentation at international conferences, and one scientific research project.

CONTRIBUTIONS AND RESEARCH FOCUS

Majid Bagherinia's research focus lies in ground improvement techniques utilizing biomolecules, bacteria, and biopolymers. His pioneering work in merging geotechnical engineering with chemistry has led to the development of three environmentally friendly materials as alternatives to traditional binders for soil stabilization.

IMPACT AND INFLUENCE

Through his research endeavors, Majid Bagherinia has made significant contributions to the field of geotechnical engineering, particularly in the utilization of recycled waste materials and the development of geopolymers. His innovative approaches have the potential to revolutionize geo-environmental infrastructure projects and promote sustainability in construction practices, Atomic Molecular

ACADEMIC CITES

Majid Bagherinia's research outputs have been cited by peers and colleagues in the field, highlighting the relevance and impact of his work in advancing knowledge and innovation in geotechnical engineering.

LEGACY AND FUTURE CONTRIBUTIONS

As Majid Bagherinia continues his academic and professional journey, his legacy extends beyond his current endeavors. His dedication to interdisciplinary research and commitment to sustainability positions him as a leader in the field. With ongoing interests in image analysis, artificial neural networks, and atomic molecular studies, he is poised to make further significant contributions to the advancement of geotechnical engineering and environmental sustainability.

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NOTABLE PUBLICATION

Investigation of Physicochemical Changes of Soft Clay around Deep Geopolymer Columns 2022 (1)

Effect of deep chemical mixing columns on properties of surrounding soft clay  2021 (3)

Utilization of Polymers to Improve Soft Clayey Soils Using the Deep Mixing Method  2017 (16)

Behavior of polymer columns in soft clayey soil: A preliminary study  2016 (7)

   

Mohamed Ellouze | Atomic Molecular | Best Researcher Award

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Prof. Mohamed Ellouze | Atomic Molecular | Best Researcher Award

Faculty of Sciences of Sfax  | Tunisia

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Dr. Mohamed Ellouze embarked on his academic journey with a strong foundation in physics, which led him to pursue a Ph.D. in Crystallographic and Magnetic Properties of Solids at the Grenoble Institute of Technology, France, from December 1995 to December 1998. This early academic pursuit laid the groundwork for his subsequent contributions to the field of condensed matter physics.

PROFESSIONAL ENDEAVORS

Following the completion of his Ph.D., Dr. Ellouze joined the University of Sfax, Tunisia, where he has made significant strides in his academic career. Starting as an Assistant Professor in October 1999, he steadily progressed to the position of Full Professor, a role he has held from October 2005 to January 2024. His tenure at the University of Sfax has been marked by a dedication to research, teaching, and academic leadership.

CONTRIBUTIONS AND RESEARCH FOCUS ON ATOMIC MOLECULAR

Dr. Ellouze's research interests span various areas of solid-state physics, with a particular focus on material characterization, nanomaterials, and magnetic properties. His expertise includes employing techniques such as neutron diffraction and the Rietveld method for structure determination, as well as synthesizing nanoparticles and exploring their magnetic behaviors. His research also extends to the study of perovskite-type oxides and intermetallic alloys, shedding light on their properties and potential applications.

ACCOLADES AND RECOGNITION

Throughout his career, Dr. Ellouze has received recognition for his outstanding contributions to the field of physics. Notable awards and grants include a Scholarship for Habilitation in June 2003 and a prestigious Alexander von Humboldt Stiftung Fellowship in March 2002. His scholarly achievements have been acknowledged both nationally and internationally, affirming his status as a leading figure in the scientific community.

IMPACT AND INFLUENCE

Dr. Ellouze's impact extends beyond his research endeavors, as evidenced by his active involvement in scientific associations and committees. He has served in various leadership roles, including President of the Maghreb-Alexander von Humboldt Alumni Association and Vice President of the same association. Additionally, Atomic Molecular.his role as President of the commission of theses and habilitation of physics at the Faculty of Sciences of Sfax underscores his commitment to fostering academic excellence and professional development among his peers and students.

LEGACY AND FUTURE CONTRIBUTIONS

As Dr. Ellouze's career continues to evolve, his legacy as a dedicated researcher and educator is firmly established. His contributions to the understanding of magnetic materials and solid-state physics will undoubtedly shape future advancements in the field. With a keen interest in medical image processing, Atomic Molecular. he remains poised to explore interdisciplinary avenues and drive innovation in scientific research. Dr. Ellouze's legacy serves as an inspiration for aspiring scientists and underscores the importance of curiosity, perseverance, and academic rigor in pushing the boundaries of knowledge.

NOTABLE PUBLICATION

Magnetic properties of perovskites Pr0.9Sr0.1 Mn0.93+Mn0.14+O3: Monte Carlo simulations and experiments  2023 (2)

Emerging opportunities for Sr2FeReO6 and Sr2CrWO6 double perovskites in potential magnetic refrigerants and spintronics in room temperature regime  2022 (7)

Role of nickel substitution in the structural, magnetic properties, and magnetocaloric effect in La0.67Ba0.22Sr0.11Mn0.95Ni0.05O3 sample  2022 (9)

Simulation study by phenomenological and Bean–Rodbell methods of La0.7Sr0.3Mn0.95Fe0.05O3 compound  2022 (2)