Aomar Hadjadj | Advanced Materials Engineering | Best Researcher Award

Best Researcher Award

Aomar Hadjadj
Affiliation University of Reims Champagne-Ardenne
Country France
Scopus ID 7003557463
Documents 73
Citations 1,072
h-index 20
Subject Area Advanced Materials Engineering
Event Computer Scientists Awards

Aomar Hadjadj

University of Reims Champagne-Ardenne, France

Aomar Hadjadj is a researcher associated with the University of Reims Champagne-Ardenne whose academic work focuses on advanced materials engineering, dielectric materials, polymer aging, functional coatings, and semiconductor technologies. His publication record demonstrates interdisciplinary collaboration across materials science, electrical insulation, surface engineering, and environmental applications. Through contributions to peer-reviewed journals and international conferences, his research supports the development of durable engineering materials, sustainable coating technologies, and innovative characterization methods.[1]

Abstract

This article summarizes the scholarly profile of Aomar Hadjadj in the field of advanced materials engineering. His research encompasses polymer degradation, dielectric insulation systems, transparent semiconductor coatings, photocatalytic materials, and reliability assessment of engineering components. These investigations contribute to improved material performance, sustainable technologies, and industrial durability through experimental characterization and multidisciplinary collaboration.[2]

Keywords

Advanced Materials Engineering, Polymer Aging, EPDM Rubber, Functional Coatings, Semiconductor Films, Dielectric Materials, Photocatalysis, Electrical Insulation, Surface Engineering, Materials Characterization.

Introduction

Modern engineering increasingly depends on materials capable of maintaining performance under demanding environmental and operational conditions. Hadjadj’s investigations address these challenges by studying degradation mechanisms, functional coatings, and advanced dielectric systems that enhance reliability in industrial applications. His collaborative publications span journal articles and conference proceedings, reflecting continued engagement with emerging engineering challenges.[3]

Research Profile

  • Scopus Author ID: 7003557463.
  • 73 indexed publications with 1,072 citations.
  • Current h-index of 20.
  • Research spans polymer science, dielectric engineering, coatings, and semiconductor materials.

Research Contributions

His recent work examines hydraulic and climatic aging of EPDM insulation materials, transparent semiconductor films for functional coatings, and photocatalytic degradation of industrial dyes using titanium dioxide nanomaterials. These studies combine laboratory experimentation with engineering analysis to improve durability, efficiency, and environmental sustainability in advanced material systems.[4]

Publications

  • Quantitative Kinetic Analysis of Hydraulic Aging in EPDM Rubber: Evolution of Functional Properties.
  • Recent Advances in Functional Transparent Semiconductor Films and Coatings.
  • Sunlight-Driven Photodegradation of RB49 Dye Using TiO2-P25 and TiO2-UV100.
  • Effects of Climatic Aging on the Performance of EPDM Used in Power Cable Insulation. IEEE ICD 2024.

Research Impact

The citation metrics and publication portfolio indicate sustained scientific influence within materials engineering. Research outputs have supported understanding of insulation aging, advanced coatings, photocatalytic materials, and semiconductor technologies, providing valuable references for researchers and industrial practitioners.[5]

Award Suitability

Based on publicly available scholarly indicators, publication productivity, interdisciplinary collaborations, and contributions to advanced materials engineering, Aomar Hadjadj demonstrates characteristics commonly associated with recognition through a Best Researcher Award. His work addresses practical engineering challenges while advancing scientific understanding through peer-reviewed research and international dissemination.[6]

Conclusion

Aomar Hadjadj has established a consistent research profile within advanced materials engineering through contributions to polymer science, dielectric insulation, coatings, and functional materials. His publications, citation performance, and collaborative research activities reflect ongoing engagement with topics of scientific and industrial importance, supporting his profile as an accomplished academic researcher.

References

  1. Elsevier. (n.d.). Scopus Author Details: Aomar Hadjadj, Author ID 7003557463.
    https://www.scopus.com/authid/detail.uri?authorId=7003557463
  2. Bouguedad, D., Mouri, D., Hadjadj, A. (2026). Polymers.
    https://doi.org/10.3390/polym18131604
  3. Hadjadj, A., Gilliot, M. (2025). Coatings.
    https://doi.org/10.3390/coatings15121445
  4. Zaaboul, F., et al. (2024). Coatings.
    https://doi.org/10.3390/coatings14101270
  5. Bouguedad, D., et al. (2024). IEEE ICD Proceedings.
    https://ieeexplore.ieee.org/document/10613187
  6. Computer Scientists Awards. Best Researcher Award Information.
    https://computerscientists.net/

Bora Park | Advanced Materials Engineering | Best Researcher Award

Best Researcher Award

Bora Park – POMIA (Pohang Institute of Materials Industry Advancement)

Bora Park
Affiliation POMIA (Pohang Institute of Materials Industry Advancement)
Country South Korea
Scopus ID 57207742240
Documents 3
Citations 117
h-index 3
Subject Area Advanced Materials Engineering
Event Computer Scientists Awards

Bora Park is a researcher associated with the POMIA (Pohang Institute of Materials Industry Advancement), South Korea, whose scholarly activities focus on advanced materials engineering, corrosion science, surface treatment technologies, and alloy-coated steel systems. Her research contributions address industrial challenges related to durability, corrosion resistance, coating technologies, and functional material performance. Through studies involving Zn-Al-Mg alloy coated steels, electroless nickel plating, sensor technologies, and electrochemical behavior analysis, she has contributed to the understanding of material degradation mechanisms and performance enhancement strategies in industrial environments.[1]

Abstract

This article summarizes the academic profile and research achievements of Bora Park in advanced materials engineering. Her work encompasses corrosion behavior analysis, alloy-coated steel systems, electroless plating technologies, and sensor applications. The research portfolio demonstrates engagement with practical industrial materials challenges while contributing to scientific understanding of surface engineering and electrochemical performance.[2]

Keywords

Corrosion Science, Advanced Materials Engineering, Zn-Al-Mg Alloy, Electroless Nickel Plating, Surface Engineering, Electrochemical Behavior, Steel Coatings, Material Durability.

Introduction

Advanced materials research plays an essential role in improving the performance and longevity of industrial components. Bora Park’s investigations focus on corrosion mechanisms, coating technologies, and material optimization strategies. These studies contribute to the development of reliable and sustainable engineering materials capable of operating under demanding environmental conditions.[3]

Research Profile

Bora Park has established a research profile centered on materials characterization, corrosion evaluation, and surface modification technologies. Her scholarly output reflects interdisciplinary collaboration involving materials science, electrochemistry, coating technologies, and industrial engineering applications. Citation metrics indicate growing academic recognition within specialized materials engineering domains.[1]

Research Contributions

  • Investigation of corrosion behaviors in eutectic structures of Zn-Al-Mg alloy coated steel under chloride-containing environments.
  • Research on electroless nickel plating effects on Al-cBN composites and their electrochemical performance.
  • Evaluation of cut-edge corrosion behavior of Zn-Al-Mg alloy coated steel sheets.
  • Development and optimization of ZnO nano-sensor technologies for toluene detection.

Publications

  • Park B., Choi J., et al. Effect of Electroless Ni Plating Time on the Surface Evolution and Electrochemical Behavior of Al-cBN Composites. Coatings, 2026.
  • Mechanical Study on the Cut-Edge Corrosion Behaviors of Zn-Al-Mg Alloy Coated Steel Sheets in Chloride Containing Environments. Corrosion Science, 2019.
  • Ultrasonic Process Parameter of ZnO-Nano Sensor on Toluene Detection. Sensor Letters, 2016.

Research Impact

The research impact of Bora Park is reflected through scholarly citations, industry relevance, and contributions to materials durability studies. Her investigations provide valuable insights into corrosion-resistant coatings and surface engineering solutions that support industrial manufacturing, infrastructure protection, and advanced material development.[4]

Award Suitability

Bora Park demonstrates qualifications aligned with the objectives of the Best Researcher Award through her documented contributions to advanced materials engineering. Her research addresses practical industrial challenges while advancing scientific knowledge in corrosion science, electrochemical characterization, and coating technologies. The combination of publication output, citation performance, and applied research significance supports recognition within an international academic award framework.[5]

Conclusion

Bora Park has contributed to the advancement of materials engineering through research focused on corrosion science, alloy-coated steel systems, surface treatments, and sensor technologies. Her work supports both academic understanding and industrial application, making her research profile a noteworthy example of applied materials science scholarship.[6]

References

  1. Elsevier. (n.d.). Scopus author details: Bora Park, Author ID 57207742240. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57207742240
  2. Park, B., et al. (2026). Effect of Electroless Ni Plating Time on the Surface Evolution and Electrochemical Behavior of Al-cBN Composites. Coatings.
  3. Corrosion Science. (2019). Mechanical Study on the Cut-Edge Corrosion Behaviors of Zn-Al-Mg Alloy Coated Steel Sheets.
  4. Materials Engineering Literature. Corrosion Behaviors of the Eutectic Structure in Zn-Al-Mg Alloy Coated Steel.
    https://doi.org/10.1016/j.corsci.2017.09.003
  5. Computer Scientists Awards. (n.d.). Research Excellence Recognition Program.
    https://computerscientists.net/

Mrs. Snežana Đurković | Materials Science | Women Researcher Award

Mrs. Snežana Đurković | Materials Science | Women Researcher Award

Junior Research Assistant | Institute for Nuclear Sciences Vinča | Serbia

Snežana Đurković is an early-career physicist specializing in applied physics, optical materials, and physics-informed artificial intelligence. Her research focuses on luminescence mechanisms in transition-metal-activated inorganic phosphors, integrating supervised machine-learning techniques to predict optical properties for sensor and LED applications. Working within the Optical Materials and Spectroscopy (OMAS) research framework, she bridges experimental spectroscopy with data-driven modeling to enhance material performance understanding. Her emerging scholarly output is indexed across Google Scholar and Scopus, reflecting a developing citation record and h-index characteristic of a growing doctoral research portfolio. Her work demonstrates strong potential for impactful contributions to smart photonic materials and AI-assisted materials science.


View ORCID Profile

Featured Publications

Physics-Informed Artificial Intelligence Framework for Predicting Luminescence Properties of Cr³⁺-Doped Inorganic Phosphors
– SCOM 2025 Conference

Synthesis and Luminescent Properties of Pr³⁺-Doped Sr₂LaF₇ Phosphor Nanoparticles
– Optical Materials Conference, 2024

Dr. Mohamed El Malki | Materials Sciences | Research Excellence Award

Dr. Mohamed El Malki | Materials Sciences | Research Excellence Award

Vocational Professor | Mohammed 1 University | Morocco

Mohamed El Malki is a researcher in acoustics and materials physics whose work centers on the theoretical and experimental investigation of periodic and quasi-periodic acoustic waveguide structures, including Helmholtz resonators and phononic crystals. His research contributes to advanced noise control, wave manipulation, and acoustic metamaterials, with publications in high-impact journals such as Scientific Reports and several ongoing studies on Thue–Morse resonator systems. His scholarly output demonstrates consistent international visibility and impact, with Scopus indexing 33 documents, 139 citations, and an h-index of 7, while Google Scholar records approximately 178 citations, an h-index of 7, and a growing i10-index, reflecting sustained research influence in applied and fundamental acoustics.

Citation Metrics (Google Scholar)

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Citations
973
i10-index
26
h-index
18
              🟦 Citations    🟥 i10-index    🟩 h-index


View Scopus Profile
View ORCID Profile
    View Google Scholar Profile

Featured Publications

Dr. Zheng Liu | Materials Science | Best Researcher Award

Dr. Zheng Liu | Materials Science | Best Researcher Award

Engineer, TaiHang Laboratory, China

Dr. Zheng Liu is a dedicated Chinese materials engineer currently serving at the Taihang National Laboratory in Chengdu, Sichuan, China. Specializing in polymer chemistry and advanced composite materials, he has made significant contributions to the development of structural and wave-transparent composites. With a strong academic foundation and multiple research publications in high-impact journals, Dr. Liu is known for his work on interface modification and high-performance fiber-reinforced composites. His research is widely recognized in both academic and industrial settings.

Publication Profile

🎓 Education Background

Dr. Zheng Liu earned his Bachelor’s Degree in 2018 from Nanchang Hangkong University. He went on to receive his Master’s Degree from Northwestern Polytechnical University in 2021, where he continued and completed his Ph.D. in 2024. His academic journey has equipped him with in-depth knowledge in polymer science, composite mechanics, and material interface engineering.

💼 Professional Experience

Since March 2024, Dr. Liu has been working as an Engineer at the Lightweight Structure and Materials Manufacturing Research Center, part of the Taihang National Laboratory & Northwestern Polytechnical University. His professional focus includes the engineering of high-performance polymer and ceramic matrix composites, particularly those used in wave-transparent applications and thermal management.

🏅 Awards and Honors

While specific awards are not listed, Dr. Zheng Liu’s academic excellence is reflected through his multiple peer-reviewed publications in top-tier journals like Composites Science and Technology, Polymer Composites, and Journal of Materials Science & Technology. His work has gained citations and is co-authored with prominent researchers, demonstrating peer recognition and scholarly impact.

🔬 Research Focus

Dr. Liu’s research interests span across Polymer Chemistry and Physics; Structural/functional integrated composites; Wave-transparent and Wave-absorbing composites; Ceramic matrix composites; Thermal Conductive Composites; and Modification of Composites Interfaces. He focuses on the synthesis and design of high-performance materials with applications in aerospace, electronics, and advanced engineering.

✅ Conclusion

With a solid academic background, active research contributions, and a position at one of China’s leading research institutions, Dr. Zheng Liu is emerging as a promising figure in the field of polymer and composite materials. His ongoing work continues to drive innovations in material science, with particular emphasis on interface engineering and multifunctional composite development.

📚 Top Publications Notes – Dr. Zheng Liu 

  1. A mini‐review of ultra‐low dielectric constant intrinsic epoxy resins: Mechanism, preparation and application
    📅 2024Polymers for Advanced Technologies
    📑 Cited by: To be updated (new article)

  2. Interfacial strengthening and processing of carbon fibers reinforced poly(ether-ether-ketone) composites: A mini-review
    📅 2024Polymer Composites
    📑 Cited by: To be updated (new article)

  3. Block copolymer functionalized quartz fibers/cyanate ester wave-transparent laminated composites
    📅 2023Journal of Materials Science & Technology
    📑 Cited by: 20+ articles (estimated)

  4. Branched Fluorine/Adamantane Interfacial Compatibilizer for PBO Fibers/Cyanate Ester Wave-Transparent Laminated Composites
    📅 2023Chinese Journal of Chemistry
    📑 Cited by: 10+ articles (estimated)

  5. Low dielectric constant and highly intrinsic thermal conductivity fluorine-containing epoxy resins with ordered liquid crystal structures
    📅 2023SusMat
    📑 Cited by: 12+ articles (estimated)

  6. PBO fibers/fluorine-containing liquid crystal compound modified cyanate ester wave-transparent laminated composites with excellent mechanical and flame retardance properties
    📅 2023Journal of Materials Science & Technology
    📑 Cited by: 15+ articles (estimated)

  7. Hybrid Polymer Membrane Functionalized PBO Fibers/Cyanate Esters Wave-Transparent Laminated Composites
    📅 2022Advanced Fiber Materials
    📑 Cited by: 20+ articles (estimated)

  8. Significantly improved interfacial properties and wave-transparent performance of PBO fibers/cyanate esters laminated composites via introducing a polydopamine/ZIF-8 hybrid membrane
    📅 2022Composites Science and Technology
    📑 Cited by: 25+ articles (estimated)

  9. Improving the comprehensive properties of PBO fibres/cyanate ester composites using a hyperbranched fluorine and epoxy containing PBO precursor
    📅 2021Composites Part A: Applied Science and Manufacturing
    📑 Cited by: 30+ articles (estimated)

  10. Optimization of PBO fibers/cyanate ester wave-transparent laminated composites via incorporation of a fluoride-containing linear interfacial compatibilizer
    📅 2021Composites Science and Technology
    📑 Cited by: 35+ articles (estimated)

 

Mr. Dong Han | Materials Science | Best Researcher Award

Mr. Dong Han | Materials Science | Best Researcher Award

Doctor, University of Tennessee, United States

Dong Han is an accomplished researcher and engineer specializing in multiscale modeling of material and structural behaviors. With over seven years of hands-on experience, he has contributed significantly to solid mechanics, structural mechanics, and computational modeling. His expertise spans plasticity, fracture, fatigue, vibration, and heat transfer, making him a key player in advanced material research. Proficient in various CAE and CAD tools, he excels in developing computational solutions for real-world engineering challenges.

Publication Profile

Scopus

🎓 Education:

Dong Han holds a Ph.D. in Materials Science and Engineering from the University of Tennessee, Knoxville (2020–2024) and previously studied at the University of California, Irvine (2019–2020). He earned an M.S. in Solid Mechanics from the University of Chinese Academy of Sciences (2016–2019) and a B.S. in Theoretical and Applied Mechanics from the University of Science and Technology of China (2012–2016). His academic journey reflects a strong foundation in mechanics and advanced computational modeling.

💼 Experience:

Dong Han has diverse experience in academia, research institutions, and industry. As a Mechanical Engineer at Caterpillar Inc. (2023–2024), he played a crucial role in new product introduction and development, earning multiple recognitions for his contributions. He has been a Graduate Research Assistant at Oak Ridge National Laboratory and the University of Tennessee, Knoxville, where he developed thermomechanical models for additive manufacturing, studied high-temperature hydrogen attack, and conducted micromechanical investigations of stress relaxation cracking. His earlier research at the Chinese Academy of Sciences involved dynamic compression of metallic glass matrix composites and computational modeling of glass transition behavior.

🏆 Awards and Honors:

Dong Han has received multiple recognitions at Caterpillar Inc. for his innovative solutions in product development. His research contributions in multiscale modeling and material behavior have been acknowledged through publications in high-impact journals. His work in material mechanics and computational modeling has made significant advancements in industrial and academic settings.

🔍 Research Focus:

Dong Han’s research spans finite element analysis (FEA), molecular dynamics, computational fluid dynamics (CFD), and experimental material testing. His work on additive manufacturing, high-temperature hydrogen attack, and stress relaxation cracking has enhanced the understanding of material behavior under extreme conditions. He integrates computational and experimental approaches to optimize material selection and structural design, contributing to safer and more efficient engineering solutions.

🔗 Conclusion:

Dong Han is a distinguished researcher and engineer with expertise in material modeling, computational mechanics, and experimental validation. His contributions to high-temperature material behavior, additive manufacturing, and structural optimization have had a significant impact on both academia and industry. With a deep understanding of computational and experimental techniques, he continues to drive innovation in engineering materials and structural analysis. 🚀

📚 Publications:

A mechanistic interpretation of Nelson curves for PVP failures under high-temperature hydrogen attack. Mechanics of Materials.

Atomistic structural mechanism for the glass transition: entropic contribution. Physical Review B.

Statistical complexity of potential energy landscape as a dynamic signature of the glass transition. Physical Review B.

Identifying multiple synergistic factors on the susceptibility to stress relaxation cracking in variously heat-treated weldments. Mechanics of Materials.

Residual stress modeling and advanced diffraction measurements of 347H steel weldments. Pressure Vessels and Piping Conference.

Does structure determine property in amorphous solids? Chinese Journal of Theoretical and Applied Mechanics.

Jianguo Zhao | Materials Engineering | Best Researcher Award

Assoc Prof Dr. Jianguo Zhao | Materials Engineering | Best Researcher Award

Full-time Associate Professor, Nanjing University of Information Science and Technology, china

Jianguo Zhao is a dedicated associate professor at Nanjing University of Information Science and Technology (NUIST). Since receiving his Ph.D. in Physical & Electronics from Southeast University in 2019, he has focused on pioneering research in CVD growth of hBN, gas detectors, and III-nitride semiconductors. His work has significantly contributed to advancements in the field, making him a recognized figure in semiconductor research.

Profile

ORCID

 

🎓 Education:

Jianguo Zhao earned his Ph.D. in Physical & Electronics from Southeast University, China, in 2019. This solid academic foundation has been crucial in his innovative research endeavors at Nanjing University of Information Science and Technology.

💼 Experience:

Jianguo Zhao has been a full-time associate professor at Nanjing University of Information Science and Technology since 2019. His expertise includes supervising postgraduate students and leading cutting-edge research projects, notably in the areas of CVD growth of hBN and the development of III-nitride semiconductors.

🔬 Research Interests:

Jianguo Zhao’s research focuses on the CVD growth of hexagonal boron nitride (hBN), gas detection technologies, and the epitaxial growth of III-nitride semiconductors. His innovative work on ultraviolet and visible light emitters has been instrumental in advancing semiconductor technology.

🏆 Awards:

Jianguo Zhao has been recognized for his outstanding contributions to semiconductor research, receiving multiple awards. His work has earned him accolades for advancing the growth technologies and device structures of wide-bandgap semiconductors.

Publications

High-performance solar-blind photodetector
Rapid growth of 24 mm scale hexagonal boron nitride crystals
Effects of Buffer Layer on Structural Properties of AlGaN Films
Effects of Mg-doping temperature on structural and electrical properties of p-type GaN
Epitaxial growth and characteristics of a-plane GaN