Dora Zakarian | Materials Science | Best Researcher Award

Posted on by Academic achievements

Dr. Dora Zakarian | Materials Science | Best Researcher Award

Senior Researcher at Institute for Problems in Materials Science, Ukraine

Dr. Dora Zakarian, a distinguished theorist in solid-state physics, has been contributing to material science since 1980 at the Institute for Problems in Materials Science (IPMS), Ukrainian National Academy of Science, Kyiv, Ukraine. With a doctorate in Physical and Mathematical Sciences, she is renowned for her innovative “a priori pseudopotential” method and groundbreaking studies on the mechanical properties of advanced materials.

Profile

Google Scholar

Education 🎓

Dr. Zakarian holds a Doctorate in Physical and Mathematical Sciences, specializing in solid-state physics. Her academic background is rooted in rigorous theoretical approaches, emphasizing quantum mechanics and material modeling.

Professional Experience 💼

Dr. Zakarian’s career spans over four decades at IPMS, where she has conducted theoretical studies of mechanical properties in diverse materials. She developed the “a priori pseudopotential” method, which has led to significant advancements in understanding materials like metals, carbides, borides, and eutectic composites. Her work has influenced fields such as nanotechnology and high-entropy alloys, resulting in dozens of foundational methodologies.

Research Interests 🔬

Dr. Zakarian’s research is centered on computational materials science, particularly:

  • Mechanical properties of composite materials under varying conditions.
  • Thermodynamic modeling of binary systems and eutectics.
  • Pioneering methods to account for size factors, anharmonic effects, and intercomponent interactions in composite materials.
  • Young’s modulus and other critical properties of advanced materials.

Awards and Recognitions 🏆

Dr. Zakarian has actively contributed to international research through:

  1. U.S. Navy Grant (2007-2009) – Simulation of ceramic composites in LaB₆-MeB₂ systems.
  2. U.S. Air Force Grant (2012-2014) – Modeling of boride ceramic composites.
  3. NATO Project Grant (2016-2023) – Development of shock-resistant boron-based ceramics, integrating production and testing.

Her groundbreaking contributions have been recognized globally, with applications in defense and aerospace industries.

Key Publications 📚

Dr. Zakarian has authored numerous peer-reviewed articles. Key works include:

Universal temperature dependence of Young’s modulus

  • Year: 2019
  • Citations: 42

Calculation of composition in LaB6–TiB2 and LaB6–ZrB2 eutectics by means of pseudopotential method

  • Year: 2011
  • Citations: 23

Pseudopotential method for calculating the eutectic temperature and concentration of the components of the B4C–TiB2, TiB2–SiC, and B4C–SiC systems

  • Year: 2009
  • Citations: 19

Ab-initio calculation of the coefficients of thermal expansion for MeB2 (Me–Ti, Zr) and LaB6 borides and LaB6–MeB2 eutectic composites

  • Year: 2012
  • Citations: 11

Quasi-harmonic approximation model in the theory of pseudopotentials

  • Year: 2016
  • Citations: 7

Расчет теоретической прочности алмазоподобных материалов, исходя из энергии взаимодействия атомных плоскостей

  • Year: 2006
  • Citations: 7

Mechanical characteristics of quasibinary eutectic composites with regard for the influence of an intercomponent interaction of the interface

  • Year: 2014
  • Citations: 5

Theoretical Strength of Borides and Quasibinary Boride Eutectics at High Temperatures

  • Year: 2015
  • Citations: 4

Наночастицы с алмазоподобной структурой и обратный закон Холла–Петча

  • Year: 2014
  • Citations: 3

Temperature dependence of the hardness of materials with a metallic, covalent-metallic bonds

  • Year: 2021
  • Citations: 2

For a complete list of publications, please refer to the accompanying document.

Conclusion 🌟

Dr. Dora Zakarian’s contributions to theoretical solid-state physics and materials science are pivotal in advancing our understanding of composite materials. Her innovations in computational methods and models have reshaped the study of mechanical and thermodynamic properties of advanced materials, making her a prominent figure in her field

Charly Julien Nyobe | Wood Mechanics | Best Paper Award

Posted on by Academic achievements

Dr. Charly Julien Nyobe | Wood Mechanics | Best Paper Award

Dr. Charly Julien Nyobe – Teacher-researcher at ENSET of Douala, France

Charly Julien Nyobe is a dedicated researcher, educator, and civil engineer with specialized expertise in wood material science, sustainable construction, and structural mechanics. His work focuses on developing sustainable, eco-friendly construction practices, particularly through the innovative use of tropical woods as viable alternatives to traditional materials. Nyobe’s research addresses the mechanical properties, strength classifications, and resilience of timber from the Congo Basin, contributing significantly to the advancement of sustainable building practices in regions rich in tropical forests. His in-depth studies cover topics such as the impact of scale on wood strength, the effect of grain slope on mechanical properties, and the influence of natural variability in wood species. Nyobe has contributed numerous publications that highlight his findings, focusing on factors like vibratory damping, structural reliability, and wood’s response under varying environmental conditions. His research, widely cited in prominent journals, emphasizes the importance of combining traditional materials with advanced engineering methods to create resilient, environmentally friendly construction solutions. Beyond research, Nyobe is an active educator at the University of Douala, where he mentors students and supervises projects that explore innovative uses of wood in civil engineering. His role as a member of the Groupe De Recherche Science du Bois (GDR) in France further underscores his commitment to promoting sustainable materials in engineering. Through his work in academia, industry, and collaborative research, Nyobe has established himself as a leader in sustainable civil engineering, demonstrating that tropical wood, when combined with modern engineering approaches, can serve as a durable, high-performance construction material. His contributions continue to drive awareness of the potential of sustainable materials in civil engineering, inspiring new research and practical applications that align with environmental stewardship and sustainable development goals.

Profile Verification

Google Scholar

Education

Charly Nyobe’s academic journey is marked by a series of high achievements and specialization in civil engineering. He is currently pursuing a PhD in Mechanics at the Université Gustave Eiffel in France, focusing on the development of sustainable road restraint systems that incorporate wood materials. His first PhD, earned in 2023 from the École Nationale Supérieure Polytechnique de Yaoundé at the University of Yaoundé I, delved into multi-scale resistance classification of Congo Basin timber, earning him top honors. Nyobe also holds a Master’s in Engineering Science with a specialization in Civil Engineering from the University of Douala, where he conducted pioneering work on the mechanical resistance of Congo Basin wood, specifically the Okan species. His academic foundation was further strengthened by his undergraduate studies at the Ecole Normale Supérieure d’Enseignement Technique de Douala, where he focused on corrosion in reinforced concrete structures.

Professional Experience

Nyobe’s professional experience spans over a decade, during which he has taught and mentored students at various educational institutions in Cameroon. Since 2018, he has served as a faculty member in the Civil Engineering department at the Ecole Normale Supérieure d’Enseignement Technique (ENSET), University of Douala. Prior to this, he taught at the Lycée Polyvalent de Bonabéri in Douala, where he developed and implemented curricula designed to improve student understanding of structural engineering and construction technology. Additionally, Nyobe has served as a visiting lecturer at the École Supérieure de La Salle in Douala and the Institute of Technology in Douala, sharing his expertise with aspiring civil engineers. His extensive experience in education has equipped him with the skills to communicate complex engineering concepts effectively and foster an environment conducive to learning and innovation.

Research Interests

Charly Nyobe’s research interests are rooted in civil engineering and sustainability, with a particular focus on wood material science, structural dynamics, and impact mechanics. His ongoing doctoral research explores innovative uses of wood in road restraint systems, with an emphasis on the durability and resilience of timber under mechanical stress. Additionally, Nyobe is deeply invested in the characterization of tropical woods from the Congo Basin, investigating their potential as sustainable alternatives in construction. He employs both experimental and numerical methods to study the dynamic behavior of materials, particularly in applications where mechanical strength and material sustainability intersect. His work not only promotes eco-friendly construction practices but also contributes valuable insights into the mechanics of tropical woods, encouraging the use of indigenous resources in modern engineering.

Awards

Nyobe’s academic excellence and contributions to civil engineering research have earned him significant recognition. His PhD thesis at the École Nationale Supérieure Polytechnique de Yaoundé received the distinction of “Très Honorable” by a unanimous jury, acknowledging his groundbreaking work in the multi-scale classification of Congo Basin timber. He has also received “mention Très Bien” for both his Master’s and undergraduate thesis projects, reflecting his consistent high performance and dedication to quality research. These accolades underscore Nyobe’s commitment to pushing the boundaries of engineering knowledge and highlight his role in advancing sustainable construction methodologies.

Publications

Nyobe, C. J., Nyobe, N. S., Nkibeu, J. B., Oum Lissouck, R., & Ayina Ohandja, L. M. (2024). “Effect of slope of grain on mechanical properties of some tropical wood species.” Wood Material Science & Engineering, 1–7.
Biyo’o, R., Biwole, A. B., Moutou Pitti, R., Nyobe, C. J., et al. (2024). “Mode I cracking of three tropical species from Cameroon.” Wood Material Science & Engineering, 1–10.
Bertin, N., Nyobe, C., et al. (2023). “A Review on Methods for Determining the Vibratory Damping Ratio.” Open Journal of Civil Engineering, 13, 199-209.
Nyobe, C. J., Lissouck, R. O., Ayina Ohandja, L. M., & Emmanuel, Y. (2022). “Variability of the mechanical strength of Congo Basin timbers.” Wood Material Science & Engineering, 17(3), 210–220.

Conclusion

Charly Julien Nyobe’s work in civil engineering and wood material science embodies a commitment to sustainable development and innovation. His research is instrumental in promoting eco-friendly construction practices by exploring the properties of local wood species, with particular attention to their mechanical strength and resilience. Nyobe’s achievements in education, research, and publication reflect a deep understanding of both the theoretical and practical aspects of engineering. His contributions are shaping the field of civil engineering, particularly within regions rich in tropical forests, and underscore the potential of natural resources in addressing modern engineering challenges. As a nominee for the award, Nyobe exemplifies the qualities of a visionary researcher dedicated to sustainable advancements in engineering.

Saloua El Euch Khay | Durable materials | Women Researcher Award

Posted on by Academic achievements

Prof. Dr. Saloua El Euch Khay | Durable materials | Women Researcher Award 

Professor at National Engineering School of Tunis, Tunisia.

Prof. Dr. Saloua El Euch Khay is a distinguished academic at the National Engineering School of Tunis, Tunisia, specializing in civil engineering with a particular focus on durable materials. Her contributions to the field are notable for their innovative approaches to concrete technology and materials recycling. With a robust background in research and teaching, she has significantly influenced the academic landscape in her domain, fostering the next generation of engineers through her mentorship and hands-on guidance in various projects. Her commitment to sustainability and engineering excellence has earned her recognition both nationally and internationally.

Profile

ORCID

Education

Prof. Dr. Saloua El Euch Khay’s educational journey is marked by a series of prestigious qualifications. In 2018, she achieved her Habilitation à Diriger des Recherches (HDR) in Civil Engineering, affirming her capacity to supervise doctoral research. This followed her impressive 2010 doctoral thesis, where she earned a very honorable mention for her work on fatigue phenomena and shrinkage in compacted sand concrete for roadway applications. Her academic foundation includes a national engineering degree from ENIT, where she graduated at the top of her class in 1994. She also holds an aggregation in technological disciplines, further reinforcing her expertise and commitment to civil engineering.

Experience

Prof. Dr. El Euch Khay has extensive teaching experience at ENIT, where she has served as a Maître de Conférences since 2020, sharing her knowledge in courses covering structures, roads, and synthesis projects. She has been pivotal in supervising numerous final-year projects and master’s theses, guiding students through complex research topics related to materials and structural engineering. Her previous role as Maître-Assistant from 2015 to 2020 allowed her to deepen her engagement with students and contribute significantly to innovative research projects, further solidifying her role as a leader in academia. Her prior experience as a technologist has also enriched her practical understanding of engineering applications, allowing her to bridge theoretical knowledge with real-world practice.

Research Interest

Prof. Dr. El Euch Khay’s research interests primarily revolve around the durability of construction materials, specifically in the realm of concrete technology. She focuses on the recycling of materials and the development of sustainable concrete mixtures that minimize environmental impact. Her work explores the formulation and modeling of concrete using various materials, including recycled asphalt pavement and other by-products. This research not only addresses industry challenges but also contributes to the broader discourse on sustainable construction practices. Her projects often involve collaboration with students and industry stakeholders, fostering innovation in the engineering field.

Awards

Prof. Dr. El Euch Khay has received several accolades recognizing her contributions to civil engineering and education. Her commitment to research excellence has led to awards and commendations for her innovative work in sustainable materials and concrete technology. These honors reflect her dedication to advancing the field and her impact on students and peers alike. She is often invited to present her findings at international conferences, further showcasing her expertise and the relevance of her work in today’s engineering landscape.

Publications

Prof. Dr. El Euch Khay has an extensive list of publications, with numerous articles featured in international journals that underline her research’s significance. Key publications include:

S. El Euch Khay, A. Loulizi, Z. Zayen & G. Nammouchi. Experimental and predictive study of self-compacting concrete containing reclaimed asphalt pavement, European Journal of Environmental and Civil Engineering, 2024. DOI: 10.1080/19648189.2024.2357672 (Impact Factor: 2.2)

A. Bousleh & S. El Euch Khay. Shrinkage performance and modelling of concretes incorporating crushed limestone sand with a high content of fillers for pavement slabs, European Journal of Environmental and Civil Engineering, 2023. DOI: 10.1080/19648189.2023.2276128 (Impact Factor: 2.2)

H. Zbidi, S. El Euch Khay. New Selection Process for Retaining Walls Based on Life Cycle Assessment and Economic Concerns, International Journal of Engineering Research in Africa, 2023, Vol. 66, pp 29-44. DOI: 10.4028/p-OVz45X (Impact Factor: 0.9)

H. Zbidi, S. El Euch Khay. Environmental Impact of a Reinforced Geosynthetic Retaining Wall Made of Modular Vegetated Concrete Blocks, International Journal of Scientific Research & Engineering Technology (IJSET), Vol.19, pp. 33-41, 2023. Link

W. Ben Achour, S. El Euch Khay, K. Miled & J. Neji. Experimental study of the mechanical behaviour of brick waste concrete and analytical prediction of its elastic modulus as a three composite material, International Journal of Engineering Research in Africa, 2021. DOI: 10.4028/www.scientific.net/JERA.57.125 (Impact Factor: 0.9)

Conclusion

Prof. Dr. Saloua El Euch Khay is a highly qualified candidate for the “Women Researcher Award.” Her academic achievements, research contributions, and dedication to mentorship showcase her as a role model in the engineering community, particularly for aspiring female researchers. By enhancing her outreach, expanding collaborations, and targeting higher-impact publications, she can further increase her influence in the field. Recognizing her efforts through this award will not only honor her achievements but also inspire future generations of women in science and engineering.

Mohammed M. Younus | Nano catalysis and Carbon materials | Best Researcher Award

Posted on by Academic achievements

Dr. Mohammed M. Younus | Nano catalysis and Carbon materials | Best Researcher Award

Mohammed M. Younus at Egyptian Petroleum Research Institute, EPRI, Egypt

Mohammed M. Younus Soliman Kassem is an accomplished researcher specializing in nanotechnology, recognized for his significant contributions to the field. With a robust academic foundation and extensive experience, he has dedicated his career to advancing scientific knowledge and addressing contemporary challenges in energy and environmental sustainability. Currently affiliated with the Egyptian Petroleum Research Institute, Mohammed plays a pivotal role in innovative research projects that leverage nanotechnology to enhance industrial processes and develop sustainable solutions.

Profile

ORCID

Education

Mohammed earned his Ph.D. in Science from Ain-Shams University in 2014, where he focused on nanotechnology and chemical engineering. His educational journey reflects a commitment to rigorous academic training, equipping him with the skills necessary to excel in his field. His early academic achievements, including being recognized as the top student at Al-Azhar University, laid the groundwork for his future endeavors in research and development.

Experience

With years of experience at the Egyptian Petroleum Research Institute, Mohammed has developed expertise in processes design and development within the nanotechnology domain. His work involves not only conducting cutting-edge research but also collaborating with industry partners to translate scientific findings into practical applications. He has been involved in several projects that emphasize the intersection of academic research and real-world challenges, furthering his impact in the field.

Research Interests

Mohammed’s primary research interests lie in the application of nanotechnology for energy production, water treatment, and environmental sustainability. He is particularly focused on developing innovative nanomaterials and catalytic processes that can enhance efficiency and reduce environmental impact. His ongoing investigations aim to address critical issues such as clean energy production and resource management, reflecting his commitment to contributing to a more sustainable future.

Awards

Throughout his career, Mohammed has received several accolades recognizing his contributions to science and research. He has been a member of the Egyptian Syndicate of Scientific Professions since 2002, affirming his dedication to upholding high professional standards. Additionally, he has received various certifications for his academic achievements and participation in research projects, which further underscore his standing in the scientific community.

Publications

Mohammed has authored and co-authored numerous publications in reputable journals, significantly contributing to the body of knowledge in nanotechnology. Some of his notable works include:

Ahmed E. Awadallah, Mohamed S. Abdel-Mottaleb, Ateyya A. Aboul-Enein, Mohammed M. Yonis, Ahmed K. Aboul-Gheit, “Catalytic decomposition of natural gas to CO/CO2 free hydrogen production and carbon nanomaterials using MgO supported monometallic iron family catalysts,” Chemical Engineering Communications, 2013. [Cited by 8]

Mohammed M. Yonis, “Application of Nanochemistry in Energy, Water and Environment Development,” Workshop, Faculty of Science, ASU, 2013. [Cited by 2]

Ahmed K. Aboul-Gheit, Ahmed E. Awadallah, Mohammed M. Yonis, “Preparation of Nano-crystalline NiO powder via Solution Combustion synthesis approach,” 15th International Conference on Petroleum Mineral Resources and Development, 2012. [Cited by 4]

Z.I. Zaki, Mohammed M. Yonis, M.B. Morsi, “Combustion synthesis of TiC/Al2O3 composite and its oxidation behavior,” COM 2007, 2007. [Cited by 3]

Patent produced on STDF project No. 1097, 2013.

Conclusion

Mohammed M. Younus Soliman Kassem exemplifies the qualities of a dedicated and impactful researcher in the field of nanotechnology. His academic achievements, innovative contributions, and commitment to professional development position him as a strong candidate for the Best Researcher Award. By focusing on enhancing the visibility and impact of his research and pursuing further funding opportunities, he can continue to contribute significantly to the scientific community and address pressing challenges in energy and environmental sustainability.