BANTAMLAK BIRLIE – Materials Science and Engineering – Best Researcher Award

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BANTAMLAK BIRLIE - Materials Science and Engineering - Best Researcher Award

Bahir Dar University - Ethiopia

AUTHOR PROFILE

Google Scholar

BANTAMLAK BIRLIE: A JOURNEY OF EXCELLENCE IN TEXTILE ENGINEERING AND INNOVATION 🌟

My educational journey has been a pursuit of mastery in Bachelor of Science in Textile Engineering and Manufacturing. Armed with a Master of Science in Textile Manufacturing and Material Science and Engineering, alongside a Bachelor of Science in Textile Engineering, I've delved deep into the intricacies of the field. For the past seven years, I've had the privilege of sharing my knowledge and insights as a lecturer and researcher at Bahir Dar University Ethiopian Institute of Textile and Fashion Technology. This experience has not only enriched my understanding of the discipline but also fueled my passion for exploration and innovation within the textile industry. Through rigorous academic pursuits and hands-on research, I have garnered a robust skill set and a keen eye for emerging trends and technologies.

ACADEMIC ACHIEVEMENTS AND COMMITMENT TO EXCELLENCE 📚

My academic achievements stand as milestones in my journey, reflecting my commitment to excellence and my aspiration to contribute meaningfully to the advancement of extraction and characterization of natural cellulosic fibers for green composite manufacturing applications due to its biodegradability and eco-friendly nature. As I look ahead, I am excited to continue pushing boundaries, fostering collaboration, and driving positive change in the ever-evolving landscape of textiles. My contributions to research and development, innovation, and extension have been multifaceted and impactful.

EXPERTISE IN SUSTAINABLE MATERIALS 🌿

One significant aspect of my work has been in the realm of sustainable materials, where I have dedicated myself to extracting and characterizing natural cellulosic fibers for green composite applications. This endeavor not only advances the field of materials science but also promotes environmentally friendly alternatives in various industrial applications. Additionally, my research has shed light on eco-friendly approaches for textile waste effluent treatment, addressing a critical issue in the textile industry and advocating for sustainable practices.

INNOVATIONS IN BIOBASED FLAME RETARDANCY 🔥

Furthermore, my exploration into biobased flame retardancy of textile polymeric materials has offered novel solutions for enhancing safety without compromising on eco-friendliness. These innovations stand as a testament to my dedication to pushing the boundaries of what is possible in the textile industry, ensuring that advancements are both cutting-edge and sustainable.

DEDICATION TO KNOWLEDGE DISSEMINATION 🧑‍🏫

Beyond research, I have actively engaged in knowledge dissemination by delivering lectures to graduate students, fostering a culture of learning and innovation. Through these efforts, I strive to not only contribute to the academic community but also inspire others to embrace sustainable practices and drive positive change in their respective fields.

PASSION FOR ENVIRONMENTAL SUSTAINABILITY 🌍

Through rigorous academic pursuits and hands-on research, I have garnered a robust skill set and a keen eye for emerging trends and technologies. My work emphasizes the importance of environmental sustainability, advocating for practices that protect and preserve our planet for future generations. This passion for sustainability permeates every aspect of my professional endeavors, from research to teaching.

VISION FOR THE FUTURE OF TEXTILES 🚀

As I look ahead, I am excited to continue pushing boundaries, fostering collaboration, and driving positive change in the ever-evolving landscape of textiles. My vision for the future includes continued contributions to research and development, particularly in sustainable materials and eco-friendly practices, ensuring that the textile industry evolves in a manner that is both innovative and responsible.

NOTABLE PUBLICATION

Textile effluent treatment methods and eco-friendly resolution of textile wastewater 2022 (110)

Nanotechnologies past, present and future applications in enhancing functionality of medical textiles: a review 2024

Textile Wastewater Treatment Using Polypyrrole/Polyphenol Oxidase Membranes 2024

Extraction and Characterization of Bast Fiber from Xanthium Oriental plant 2023

Textile effluent treatment methods and eco-friendly resolution of textile wastewater 2022

Najim Tahiri – Materials sciences and complex fluids – Best Researcher Award

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Najim Tahiri - Materials sciences and complex fluids - Best Researcher Award

Mohammed V university of Rabat - Morocco

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Najim Tahiri's academic foundation is deeply rooted in Materials Sciences and Complex Fluids. He completed his Bachelor's degree in Physical Matter Sciences in 2006, followed by a Master’s in Physics of Matter, Modeling, and Application in 2008, both from the Faculty of Sciences at Mohammed V University of Rabat, Morocco. He continued to excel academically, earning his PhD in Biophysics from Mohammed V University of Rabat in collaboration with Grenoble Alpes University, France, in 2013. Recently, in 2023, he achieved his HDR (Habilitation à Diriger des Recherches) in Physics with a focus on Materials Sciences and Complex Fluids from the same university.

PROFESSIONAL ENDEAVORS

Since December 2019, Najim Tahiri has been a Professor of Physics at the Faculty of Sciences, Mohammed V University of Rabat. His professional career is distinguished by his roles in teaching and research. He has made significant contributions to the fields of Materials Sciences and Complex Fluids through his academic positions and collaborative research efforts. His work involves studying the structural, electronic, magnetic, and magnetocaloric properties of various materials, as well as the rheological behavior of complex fluids.

CONTRIBUTIONS AND RESEARCH FOCUS

Najim Tahiri's research is primarily focused on Materials Sciences and Complex Fluids, with notable contributions to understanding the behavior of red blood cells in microvasculature, vesicle microcirculation, and the rheology of particulate suspensions. His publications include significant findings on the structural, electronic, and magnetic properties of intermetallic compounds and antiperovskite materials. Tahiri has published numerous journal articles, contributing to advancements in Materials Sciences and Complex Fluids.

IMPACT AND INFLUENCE

Tahiri's work has garnered international recognition, as evidenced by his extensive list of publications in high-impact journals. His h-index and citation metrics, available on Scopus, highlight his influence in the academic community. Key publications, such as his work on slipper shapes of red blood cells and the complexity of vesicle microcirculation, have been widely cited and have contributed to advancements in the understanding of Materials Sciences and Complex Fluids.

ACADEMIC CITES

Najim Tahiri's research is highly cited, reflecting his significant impact on the scientific community. His Scopus profile demonstrates the broad reach and influence of his work, particularly in Materials Sciences and Complex Fluids. His studies on magnetic properties, quantum transverse anisotropy, and multilayer transitions have established him as a leading figure in his field.

LEGACY AND FUTURE CONTRIBUTIONS

Najim Tahiri's legacy in Materials Sciences and Complex Fluids is marked by his dedication to advancing knowledge and mentoring future scientists. His future contributions are expected to further explore the complexities of materials behavior and fluid dynamics, driving innovation and new discoveries in these fields. As a professor and researcher, Tahiri continues to inspire and guide students and colleagues, ensuring a lasting impact on the scientific community.

MATERIALS SCIENCES AND COMPLEX FLUIDS

Throughout his career, Najim Tahiri has made significant strides in Materials Sciences and Complex Fluids. His research encompasses a broad range of topics, including the structural and magnetic properties of materials, the behavior of complex fluids in various conditions, and the application of advanced modeling techniques. His dedication to Materials Sciences and Complex Fluids has led to groundbreaking work that continues to influence and shape the future of these critical fields. His expertise and contributions are widely recognized, making him a pivotal figure in the study and advancement of Materials Sciences and Complex Fluids.

NOTABLE PUBLICATION

Computational study of physical properties of double perovskite Cs2SnX6 (X = Cl, Br, I) compounds for their potential applications in photovoltaic and photocatalytic 2024

DFT Study of Electronic, Optical, Thermoelectric, and Thermodynamic Properties of the HfO2 Material  2024 (1)

Electronic, thermodynamic, optical, and thermoelectric properties of Sr2RuO4 compound: Ab-initio principle 2024 (2)

A DFT study of the electronic structure, optical and thermoelectric properties of perovskite CsSnBr 3 compound under strains effect: Photovoltaic applications 2024 (2)

Ashot V. Arzumanyan – Organosilicon materials – Best Researcher Award

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Dr. Ashot V. Arzumanyan - Organosilicon materials - Best Researcher Award

A.N. Nesmeyanov Institute of Organoelement Compounds of Russian Academy of Sciences - Russia

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Dr. Ashot V. Arzumanyan's academic journey began with a strong foundation in chemistry. He obtained his Bachelor's and Master's degrees as a Chemical Engineer from the M.V. Lomonosov Moscow State University of Fine Chemical Technology. His early focus was on the Chemistry of Technology of Organometallic Compounds, setting the stage for his future contributions in this field Organosilicon materials.

PROFESSIONAL ENDEAVORS:

Dr. Arzumanyan's professional endeavors reflect a trajectory of continuous growth and expertise. After completing his graduate studies at the N.D. Zelinsky Institute of Organic Chemistry, where he defended a dissertation on new classes of cyclic organosilicon peroxides, he broadened his experience with a postdoctoral position at the Institute of Chemistry, Saint Petersburg State University. Subsequently, he became a Senior Researcher at the A.N. Nesmeyanov Institute of Organoelement Compounds, solidifying his position as a seasoned researcher Organosilicon materials.

CONTRIBUTIONS AND RESEARCH FOCUS Organosilicon materials:

Dr. Arzumanyan's contributions to the field are noteworthy, with a focus on catalytic functionalization of organic and organometallic compounds. His research includes the synthesis and transformation of new classes of cyclic organosilicon peroxides, showcasing a dedication to advancing the understanding of organosilicon chemistry. As the Head of the Group for Catalytic Functionalization, his leadership underscores the importance of his research in this domain.

IMPACT AND INFLUENCE:

Dr. Arzumanyan's impact is evident through his dual roles as the Head of the Group for Catalytic Functionalization at A.N. Nesmeyanov Institute of Organoelement Compounds and the Head of the Group for Catalysis in Organosilicon Chemistry at A.V. Topchiev Institute of Petrochemical Synthesis. These leadership roles indicate his influence in shaping research directions and fostering collaboration in these prestigious institutions Organosilicon materials.

ACADEMIC CITES:

Dr. Arzumanyan's academic impact is quantifiable through an h-index of 10, comprising 25 papers and 5 patents as per Scopus. This citation metric attests to the recognition of his work within the scientific community and the relevance of his contributions to the field.

LEGACY AND FUTURE CONTRIBUTIONS:

Dr. Arzumanyan's legacy is being built on a foundation of pioneering research in catalytic functionalization and organosilicon chemistry. His future contributions are likely to include further advancements in these areas, contributing to the evolving landscape of organic and Organosilicon materials.

NOTABLE PUBLICATION

Silica-Based Aerogels with Tunable Properties: The Highly Efficient BF3-Catalyzed Preparation and Look inside Their Structure.  2021 (8)

Dumbbell-Shaped, Graft and Bottlebrush Polymers with All-Siloxane Nature: Synthetic Methodology, Thermal, and Rheological Behavior.  2021 (10)