Yuh-Ming Ferng | Engineering | Best Researcher Award

Prof. Yuh-Ming Ferng | Engineering | Best Researcher Award

National Tsing Hua University | Taiwan

Prof. Yuh-Ming Ferng, a distinguished Professor at the Department of Engineering and System Science, Institute of Nuclear Engineering and Science, National Tsing Hua University (NTHU), has made significant contributions to nuclear engineering through his extensive research and academic leadership. He earned his B.S. and Ph.D. in Nuclear Engineering from NTHU, where his doctoral thesis focused on the numerical simulation of the rewetting process. With a professional career spanning over three decades, Prof. Yuh-Ming Ferng has held roles as Assistant, Associate, and Full Professor at NTHU, alongside senior research positions at its Nuclear Science and Technology Development Center and the Center for Energy and Environmental Research, as well as the Institute of Nuclear Energy Research. His research expertise covers nuclear reactor safety, severe accident analysis, CFD turbulence modeling, two-phase flow, thermal management, fuel cell simulation, and renewable energy systems. With 2,470 citations, 168 documents, and an h-index of 30, he is a highly impactful researcher in his field.

Profile: Scopus

Featured Publications

  • Ferng, Y.-M., & co-authors. (2026). Determining minimum site area for deep geological repository of spent fuels using thermal simulations. Annals of Nuclear Energy. Advance online publication.

  • Ferng, Y.-M., & co-authors. (2025). Thermal management design for the Be target of an accelerator-based boron neutron capture therapy system using numerical simulations with boiling heat transfer models. Processes. Advance online publication.

  • Ferng, Y.-M., & co-authors. (2024). Development of thermal-hydraulic coupling model for deep-geological disposal of high-level radioactive wastes. Nuclear Engineering and Design.

  • Ferng, Y.-M., & co-authors. (2024). Numerical model for noise reduction of small vertical-axis wind turbines. Wind Energy Science.

  • Ferng, Y.-M., & co-authors. (2024). Numerical prediction of the aerodynamics and aeroacoustics of a 25 kW horizontal axis wind turbine. Journal of Mechanics.

Hakan Yaykaşlı | Engineering | Best Researcher Award

Assist. Prof. Dr. Hakan Yaykaşlı | Engineering | Best Researcher Award

Assist. Prof. Dr. Hakan Yaykaşlı | Kahramanmaraş İstiklal University | Turkey

Assist. Prof. Dr. Hakan Yaykaşlı is an accomplished academic specializing in materials science, mechanical engineering, and physics, with a distinguished background in advanced alloys, nanofillers, and composite materials. He holds dual doctoral degrees, one in Mechanical Engineering from Gaziantep University with a focus on nanofillers in hybrid fiber composites, and another in Materials Science and Engineering from Kahramanmaraş Sütçü Imam University, where he studied the structural and mechanical properties of advanced light alloys. He also earned a master’s degree in Physics, exploring the electrical and optical properties of boron-doped thin films, and several bachelor’s degrees in physics, mechanical engineering, and occupational health and safety, along with associate degrees in machinery and emergency disaster management. His academic career includes roles as Specialist, Lecturer, and currently Assistant Professor at Kahramanmaraş İstiklal University. Dr. Yaykaşlı has supervised numerous theses on advanced alloys, nanostructured coatings, and innovative materials, while contributing significantly to teaching, mentorship, and applied research in his field.

Publication Profile

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Academic and Professional Journey

Assist. Prof. Dr. Hakan Yaykaşlı is a distinguished scholar with a strong academic background in physics, mechanical engineering, and materials science, reflected through his extensive education and research contributions. He earned a PhD in Mechanical Engineering from Gaziantep University with a thesis on the influence of nanofillers on the fracture and interlaminar shear properties of basalt carbon hybrid fiber reinforced composites, and another PhD in Materials Science and Engineering from Kahramanmaraş Sütçü Imam University, focusing on the structural, thermal, and mechanical properties of advanced AlMgTiB light alloys. His academic journey began with a master’s degree in Physics, where he investigated the electrical and optical properties of boron-doped thin films. He also completed bachelor’s studies in physics, mechanical engineering, and occupational health and safety, along with associate degrees in machinery and emergency disaster management, reflecting his interdisciplinary expertise. Through his academic endeavors, Dr. Yaykaşlı has cultivated a deep understanding of advanced materials, mechanical systems, and applied research, making significant contributions to engineering and science.

Awards and Recognition

Assist. Prof. Dr. Hakan Yaykaşlı has been recognized for his academic contributions and research achievements through prestigious honors that highlight his dedication to advancing science and engineering. Among his notable recognitions is the Publication Incentive Award granted by TÜBİTAK, a highly regarded acknowledgment in Turkey that supports and encourages impactful scientific publications. This award reflects his commitment to producing high-quality research and contributing to the dissemination of knowledge in the fields of mechanical engineering, materials science, and physics. Such recognition not only underlines the academic value of his published works but also demonstrates his ability to align his research with national and international standards of excellence. The award serves as an important milestone in his career, motivating him to further expand his scientific output and continue guiding new research in advanced materials, nanotechnology, and composite structures while inspiring students and colleagues in his field.

Research Focus

Assist. Prof. Dr. Hakan Yaykaşlı’s research focus lies at the intersection of materials science, nanotechnology, and mechanical engineering, with a strong emphasis on the development and characterization of advanced functional materials. His studies explore the mechanical, structural, thermal, optical, and radiation shielding properties of alloys, composites, glasses, and nanomaterials, particularly high entropy alloys, borate and barium-based glasses, and polymer nanocomposites. He has contributed significantly to the field of nanostructured coatings, thin films, and hybrid fiber composites by investigating the role of nanofillers, dopants, and processing techniques on enhancing mechanical strength, fracture resistance, and multifunctional properties. A key area of his expertise is radiation shielding, where he develops innovative glass and alloy systems designed to provide effective protection while maintaining structural integrity. His interdisciplinary approach integrates experimental methods with advanced characterization techniques, contributing to applications in nuclear energy, electronics, aerospace, additive manufacturing, and sustainable engineering materials.

Publication Top Notes

Mechanical and dynamic properties of basalt fiber-reinforced composites with nanoclay particles
Year: 2020 | Citations: 76

Microstructural, thermal, and radiation shielding properties of Al50B25Mg25 alloy prepared by mechanical alloying
Year: 2022 | Citations: 54

Investigation of structural, morphological, mechanical, thermal and optical properties of PVA-ZnO nanocomposites
Year: 2021 | Citations: 35

Investigation of the properties of In doped NiO films
Year: 2014 | Citations: 34

Investigating the PVA/TiO2/CDs polymer nanocomposites: effect of carbon dots for photocatalytic degradation of Rhodamine B
Year: 2022 | Citations: 30

Conclusion

Assist. Prof. Dr. Hakan Yaykaşlı is a strong candidate for the Research for Best Researcher Award. His academic diversity, dual doctoral achievements, and contributions to materials science and mechanical engineering underline his significant role in advancing research. With increased international visibility and expanded research collaborations, he has the potential not only to compete strongly but also to emerge as a leading figure in his discipline, making him a suitable nominee for this recognition.