Fenglan Kuang | Construction Materials | Best Researcher Award

Dr Fenglan Kuang | Construction Materials | Best Researcher Award

Professor, Xiangtan University, China

Fenglan Kuang is a dedicated researcher specializing in the mechanical behavior and design of new materials. She holds a Ph.D. and M.S. from Xiangtan University, with extensive expertise in dynamic impact mechanics and microstructure property control of heterogeneous materials. Her work is marked by numerous contributions to high-impact journals, showcasing advancements in material design, including rubberized geopolymer mortars and advanced semiconductor technologies.

PROFESSIONAL PROFILE

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Educational Excellence:
    Fenglan Kuang completed her Ph.D. and Master’s degrees at Xiangtan University, focusing on the mechanical behavior and design of new materials. This strong academic foundation aligns well with her research in material science.
  2. Diverse Research Areas:
    Her expertise in dynamic impact mechanical behavior, microstructure property control of heterogeneous materials, and material design reflects a deep understanding of high-demand scientific fields.
  3. Significant Research Contributions:
    • She has published extensively in high-impact journals, including:
      • Surfaces and Interfaces (2024) on high-performance ultrathin solution-processed SnO2 thin-film transistors.
      • Construction and Building Materials and Journal of Building Engineering on rubberized geopolymer mortar, showcasing expertise in sustainable construction materials.
      • Nuclear Instruments and Methods in Physics Research, A for her work on detector modeling and simulations.
    • Her research outputs demonstrate innovation and relevance to contemporary scientific challenges.
  4. Interdisciplinary Approach:
    Her work spans multiple disciplines, including materials science, mechanical engineering, and computational modeling, highlighting her ability to integrate knowledge for impactful solutions.
  5. Problem-Solving with Advanced Tools:
    Fenglan’s application of machine learning (e.g., back-propagation neural networks) for modeling composite geopolymers reflects her commitment to leveraging modern tools for research advancements.

AREAS FOR IMPROVEMENT

  1. Broader Collaboration:
    While her work involves multiple contributors, engaging in larger international collaborations could further amplify her research impact and visibility.
  2. Application-Oriented Research:
    Emphasizing real-world applications of her research findings, especially in industrial settings, could strengthen her profile.
  3. Outreach and Recognition:
    Presenting at more international conferences and securing leadership roles in scientific forums would help in establishing her as a global thought leader.

EDUCATION

Fenglan Kuang earned her Ph.D. in Mechanical Behavior and Design of New Materials from Xiangtan University (2019–2023). She also completed her M.S. in the same field at Xiangtan University (2017–2019), demonstrating a strong focus on innovative material applications. Her academic foundation emphasizes interdisciplinary approaches to understanding and improving material mechanics.

EXPERIENCE

Dr. Kuang currently serves at Liming Vocational University, where she applies her expertise in material mechanics to education and research. Her career highlights include significant contributions to the understanding of heterogeneous material dynamics and their real-world applications.

AWARDS AND HONORS

Fenglan Kuang has been recognized for her outstanding academic and research contributions. Her accolades include awards for innovative research in material mechanics and high-performance geopolymers.

RESEARCH FOCUS

Her research revolves around dynamic impact mechanical behavior and the microstructure property control of heterogeneous materials. She explores advanced applications such as rubberized geopolymer mortars and high-temperature performance of innovative composites.

PUBLICATION TOP NOTES

  • 📘 High-performance ultrathin solution-processed SnO₂ top-gate thin-film transistors by constructing high-quality dielectric/channel interface
  • 📗 DEM study on the effect of pore characteristics on single particle crushing behavior of porous particles
  • 📘 Modeling the single particle crushing behavior by random discrete element method
  • 📗 Experimental study on high-temperature performance of rubberized geopolymer mortar
  • 📘 Experimental study on preparation and properties of low content rubberized geopolymer mortar
  • 📗 Application of backpropagation neural network to the modeling of slump and compressive strength of composite geopolymers
  • 📘 Systematic modeling and simulations with analytical solutions of electric and weighting fields of 2D-Planar-Electrode and 3D-Trench-Electrode detectors
  • 📗 Simulations of electrical properties of cylindrical 3D-trench electrical Si detectors under different radiation fluences and MIP incident position

CONCLUSION

Fenglan Kuang is a strong candidate for the Best Researcher Award due to her outstanding educational background, interdisciplinary research contributions, and impactful publications. Her work on cutting-edge topics like heterogeneous materials and sustainable construction has significant societal and industrial relevance. With minor improvements in global collaborations and outreach, her profile can reach new heights, making her an exemplary researcher worthy of this recognition.

Serkan SUBAŞI | Consruction Materials | Best Researcher Award

Prof. Dr. Serkan SUBAŞI | Consruction Materials | Best Researcher Award

Professor, Düzce University, Turkey

Serkan Subaşı, born in 1976, is a renowned Turkish academic and researcher in the field of civil engineering. He holds a prominent position as a professor at Düzce University, where he has made significant contributions to the development of building materials and construction techniques. His academic career spans over two decades, focusing on innovative research in concrete and composite materials. Subaşı has collaborated with various institutions and has earned recognition for his expertise, including multiple awards for his research and innovations. In addition to his academic roles, Subaşı has been actively involved in various administrative, advisory, and leadership positions in both national and international projects. His commitment to advancing technology in the civil engineering sector continues to influence his teaching and research pursuits.

Profile

Scopus

Strengths for the Award

  1. Extensive Academic Background:
    • Prof. Dr. Serkan Subaşı holds a comprehensive academic history with bachelor’s degrees in both Construction Education and Civil Engineering, followed by a Master of Science and Doctorate in Civil Engineering, which showcases his deep understanding of the field.
    • His dissertation topics reflect a focus on practical and advanced topics in construction materials, which is aligned with his subsequent work in material engineering.
  2. Research Excellence:
    • Prof. Subaşı has authored and co-authored numerous high-impact articles on various cutting-edge topics like biocomposite foams, hybrid polymer composites, and cement slurry-based materials, with a focus on sustainability, energy storage, and material performance. His work, such as studies on phase change materials and electromagnetic shielding, directly contributes to the advancement of building materials science and sustainable construction.
    • Notable publications include prestigious journals like Construction and Building Materials, Journal of Building Engineering, and Applied Thermal Engineering, where his works have addressed pressing global challenges, including energy efficiency and carbon reduction in buildings.
  3. Innovation in Patents:
    • Prof. Subaşı has received multiple patent awards, with notable achievements in the 8th İstanbul International Patent Fair, where he received 1st and 3rd place awards in 2023. This highlights his strong inclination towards translating research into practical, marketable solutions, demonstrating leadership in innovation within his field.
  4. Leadership and Administrative Contributions:
    • Prof. Subaşı has taken on significant administrative roles in academia, such as Head of Department at Düzce University, Head of various departments related to construction education and materials science, and served as a key figure in the establishment and management of Düzce Teknopark. His ability to combine research with leadership in academia and technology transfer significantly enhances his profile.
  5. Awards and Recognitions:
    • He has been recognized with multiple awards, including the Outstanding Contribution in Reviewing Award from Elsevier, Yayın Teşvik Ödülü from TÜBİTAK, and multiple Başarı Belgesi and Takdir Belgesi from Düzce University, reflecting his significant contributions to both academia and the broader scientific community.
  6. Collaboration and Networking:
    • His involvement in regional and international scientific boards (e.g., DÜBİT, TÜBİTAK, and Marmara Development Agency) demonstrates his broad influence in shaping research agendas and fostering collaboration within the scientific community. He also plays a central role in various committees focused on advancing technology transfer and scientific innovation.

Areas for Improvement

  1. Broader International Collaboration:
    • Although Prof. Subaşı has substantial academic influence within Turkey, expanding collaborations with international research institutions could further elevate his visibility and the impact of his work. International partnerships, especially on large-scale, cross-border projects, would allow for broader dissemination of his findings and foster further global innovation.
  2. Focus on Interdisciplinary Research:
    • While Prof. Subaşı has a strong foundation in civil engineering and materials science, greater integration of interdisciplinary approaches, such as incorporating AI, data science, or advanced computational modeling into his research, could open new avenues for innovation. Collaborating with experts in these fields might enhance the scope and impact of his work.
  3. Mentorship and Early Career Development:
    • Although Prof. Subaşı has led numerous administrative and academic projects, expanding his efforts in mentoring early career researchers, graduate students, and junior faculty could significantly strengthen the academic community. Investing in the next generation of researchers will help build a sustainable, vibrant research environment.

Education

Serkan Subaşı completed his Bachelor’s degree in Construction Education at Abant İzzet Baysal University in 1997 and later earned a second Bachelor’s degree in Civil Engineering from Karabük University in 2022. He pursued his graduate studies at Gazi University, where he obtained a Master of Science in Civil Engineering in 2001. Subaşı then completed his Ph.D. in 2005 at Gazi University, focusing on the effects of formwork coatings on concrete properties. His extensive education laid a solid foundation for his academic and research endeavors in building materials and construction techniques, which continue to shape his career. Throughout his academic journey, he worked under the supervision of Prof. Dr. Metin Arslan, whose mentorship has been a key factor in Subaşı’s research success.

Experience

Serkan Subaşı has accumulated over 25 years of experience in academia and research. Beginning his career as a research assistant at Gazi University, he quickly advanced to Ph.D. roles and later became an Assistant Professor at Düzce University. He has held several academic leadership positions, such as Head of the Department of Building Education and Construction Engineering at Düzce University. Subaşı became an Associate Professor in 2010 and a full Professor in 2015, specializing in building materials and civil engineering. His leadership extends beyond teaching, having served as a general manager of Düzce Teknopark and a board member for various institutions. His extensive experience also includes consulting roles in major industrial and technological projects, enhancing his reputation as a leader in the field.

Awards and Honors

Serkan Subaşı’s career has been marked by numerous awards and recognitions. Among his prestigious honors are the 3rd place at the 2nd Istanbul International Patent Fair (2017), the “Outstanding Contribution in Reviewing” award by Elsevier (2016), and the 1st place in the Istanbul International Patent Fair (2023). He has also received several accolades from Düzce University, including recognition for his publishing success and contributions to the academic community. In 2024, he received two notable awards for his projects at the Düzce-Bolu Ar-Ge Project Fair, including the “El-Cezeri Technology Leaders” and “Uluğ Bey Science and Research” awards. These honors reflect Subaşı’s continuous impact on both academia and industry, particularly in the fields of engineering and innovation.

Research Focus

Serkan Subaşı’s research focuses primarily on advanced building materials, including concrete composites, hybrid polymers, and phase change materials (PCMs) for energy efficiency in buildings. He explores the effects of different formwork coatings on concrete properties and works extensively on sustainable materials for construction. His studies also cover the electromagnetic interference shielding of mortars incorporating carbon nanotubes and the development of novel composites for thermal energy storage. Subaşı has contributed to enhancing the sustainability of buildings by focusing on innovative materials like microencapsulated phase change materials (PCMs) and biocomposites for climate regulation. His research is aimed at creating eco-friendly and energy-efficient construction solutions.

Publications

  1. Biocomposite foams consisting of microencapsulated phase change materials for enhanced climatic regulation with reduced carbon dioxide emissions in buildings 🌱🏗️
  2. Experimental investigation of mechanical and physical properties of glass fiber reinforced concretes produced with different magnetized waters 🔬🧱
  3. Engineering properties of hybrid polymer composites produced with different unsaturated polyesters and hybrid epoxy ⚙️📐
  4. Investigation of electromagnetic interference shielding performance of ultra-high-performance mortar incorporating single-walled carbon nanotubes and steel fiber 🛡️🔩
  5. Production and assessment of UV-cured resin coated stearyl alcohol/expanded graphite as novel shape-stable composite phase change material for thermal energy storage ☀️🧊
  6. Physico-mechanical properties and thermal monitoring performance of thermal enhanced cement slurry-coated LWAs containing microencapsulated phase change material 🔥🏠
  7. Enhancing sustainability with waste hemp-shive and phase change material: Novel gypsum-based composites with advanced thermal energy storage properties 🌿💡
  8. Microencapsulated phase change material/wood fiber-starch composite as novel bio-based energy storage material for buildings 🌳🛠️
  9. 3D-printed polylactic acid-microencapsulated phase change material composites for building thermal management 🖨️🌍
  10. Characterisation and energy storage performance of 3D printed-photocurable resin/microencapsulated phase change material composite 🏗️💡

Conclusion

Prof. Dr. Serkan Subaşı is an outstanding candidate for the Best Researcher Award. His academic and research achievements in the field of civil engineering, especially in sustainable building materials and energy-efficient construction, are exemplary. His significant contributions to both research and the industry, as well as his active role in leadership positions at Düzce University and various scientific boards, highlight his value to the field. The key strength of Prof. Subaşı lies in his consistent innovation, with impactful publications, patents, and recognition from leading academic and industry bodies. His continued focus on practical solutions, sustainable construction, and advanced materials science makes him a key figure in the future development of these areas. By expanding his international collaborations and engaging further in interdisciplinary research, Prof. Subaşı could enhance his impact even more. Overall, his accomplishments not only contribute to advancing knowledge but also drive tangible improvements in the built environment, making him a deserving candidate for the Best Researcher Award.