Kejin Wang | Composite Materials Science | Best Researcher Award

Best Researcher Award

Kejin Wang
Iowa State University, United States

Kejin Wang
Affiliation Iowa State University
Country United States
Google Scholar ID vVHR2EAAAAAJ
Documents 465
Citations 20,978
h-index 78
Subject Area Composite Materials Science
Event International Research Awards on Fiberreinforced Polymer
ORCID 0000-0002-7466-3451

The Best Researcher Award recognizes distinguished scholarly achievement, sustained research productivity, and measurable impact on scientific advancement. Kejin Wang of Iowa State University has developed a substantial body of work in construction materials, cementitious composites, concrete durability, sustainable infrastructure materials, and related areas of composite materials science. Through extensive publication activity, interdisciplinary collaboration, and contributions to engineering research, Wang has established a significant academic profile supported by a large citation record and an extensive portfolio of peer-reviewed publications.[1]

Abstract

This article presents an academic overview of Kejin Wang and evaluates scholarly accomplishments relevant to the Best Researcher Award. The assessment considers publication output, citation influence, research leadership, and contributions to concrete technology, sustainable materials, and composite engineering. The researcher’s work demonstrates continued engagement with emerging challenges in construction materials and infrastructure performance.[2]

Keywords

Composite Materials Science; Concrete Technology; Cementitious Materials; Sustainable Infrastructure; Geopolymer Materials; Construction Engineering; Material Durability; Research Excellence.

Introduction

Research in modern construction materials increasingly emphasizes sustainability, durability, and performance optimization. Kejin Wang has contributed to these objectives through investigations into cement chemistry, supplementary cementitious materials, concrete microstructure, hydration mechanisms, and infrastructure applications. These activities support advances in engineering practices and material innovation across academic and industrial settings.[3]

Research Profile

The researcher maintains a substantial scholarly record comprising hundreds of indexed publications and a citation count exceeding twenty thousand. An h-index of 78 reflects broad recognition and sustained influence within engineering and materials science communities. Research activities encompass laboratory experimentation, computational analysis, and interdisciplinary collaborations addressing contemporary infrastructure challenges.[1]

Research Contributions

  • Advanced understanding of hydration and performance characteristics of blended cement systems.
  • Research on geopolymer formation mechanisms through molecular dynamics simulation.
  • Investigation of aggregate pore structures and their influence on concrete durability.
  • Development of statistical and computational approaches for concrete mix optimization.
  • Contributions to sustainable and high-performance construction materials.

Publications

Recent publications illustrate continuing engagement with material performance and engineering innovation. Representative works include studies on limestone–metakaolin blended cement paste, synthetic foamed concrete data generation, geopolymer ion migration simulations, aggregate pore structure influences (DOI: 10.1016/j.conbuildmat.2025.142751), and high-belite sulfoaluminate cement hydration behavior.[4]

Research Impact

The impact of Wang’s research extends across academia, infrastructure engineering, and materials development. High citation performance indicates widespread utilization of published findings, while continuing publication activity demonstrates active participation in advancing knowledge related to concrete technology and composite materials. Such influence contributes to scientific understanding and practical engineering implementation.[5]

Award Suitability

Based on publication productivity, citation metrics, interdisciplinary research contributions, and leadership within materials science, Kejin Wang demonstrates characteristics commonly associated with recipients of distinguished research recognition. The documented achievements align with the objectives of the International Research Awards on Fiberreinforced Polymer, particularly in advancing knowledge relevant to composite and infrastructure materials.[6]

Conclusion

Kejin Wang’s scholarly record reflects sustained research excellence, significant academic influence, and meaningful contributions to construction materials science. Through extensive publication activity, impactful research findings, and recognized expertise in composite and cementitious materials, the researcher represents a strong candidate for consideration under the Best Researcher Award category.[1]

References

  1. Elsevier. (n.d.). Google Scholar author details: Kejin Wang, Author ID vVHR2EAAAAAJ.
    https://scholar.google.com/citations?hl=en&user=vVHR2EAAAAAJ
  2. Journal of the American Ceramic Society. (2026). Effects of Combining Water-Reducing Admixtures on Workability Retention of Limestone–Metakaolin–Blended Cement Paste.
    https://doi.org/10.1111/jace.70848
  3. Journal of Materials Science. (2025). Molecular dynamics simulation of calcium and sodium ion migration in geopolymer formation and mechanical properties.
    https://doi.org/10.1007/s10853-025-11733-5
  4. Journal of Building Engineering. (2026). Generation and statistical validation of synthetic foamed concrete mix data using a Gaussian copula model.
    https://doi.org/10.1016/j.jobe.2026.116271
  5. Construction and Building Materials. (2025). Influence of coarse aggregate pore structure on the pore structure and water absorption of concrete.
    https://doi.org/10.1016/j.conbuildmat.2025.142751
  6. Construction and Building Materials. (2025). Early hydration and mechanical properties of high-belite sulfoaluminate cement blended with ferrite.
    https://doi.org/10.1016/j.conbuildmat.2025.142138

Bahiru Bewket Mitikie | Biomimetic and Bio-inspired Composites | Best Academic Researcher Award

Best Academic Researcher Award

Bahiru Bewket Mitikie
University of South Africa

Bahiru Bewket Mitikie
Affiliation University of South Africa
Country South Africa
Scopus ID 57195584119
Documents 27
Citations 204
h-index 7
Subject Area Biomimetic and Bio-inspired Composites
Event International Research Awards on Fiberreinforced Polymer
Google Scholar ID PjrNob8AAAAJ

Bahiru Bewket Mitikie is a researcher affiliated with the University of South Africa whose scholarly work has contributed to sustainable construction materials, composite technologies, concrete durability, and bio-inspired engineering applications. His research portfolio demonstrates a consistent focus on environmentally responsible material development, including the utilization of industrial by-products, agricultural residues, and alternative cementitious materials. Through peer-reviewed publications and collaborative investigations, he has advanced understanding of innovative construction systems and material performance in diverse engineering environments.[1]

Abstract

This article presents an overview of the academic achievements and research contributions of Bahiru Bewket Mitikie. His investigations span sustainable concrete technology, recycled construction materials, cement replacement strategies, and bio-inspired composite systems. Through interdisciplinary research, he has contributed to improved understanding of material performance, environmental sustainability, and structural durability in modern engineering applications.[2]

Keywords

Biomimetic Composites, Sustainable Concrete, Fiber-Reinforced Materials, Cement Replacement, Circular Economy, Construction Materials, Durability Engineering, Bio-inspired Structures.

Introduction

The growing demand for sustainable engineering solutions has increased interest in innovative composite materials and environmentally responsible construction practices. Bahiru Bewket Mitikie has participated in research addressing these challenges through studies involving alternative binders, waste-derived materials, and advanced construction technologies. His work reflects contemporary efforts to reduce environmental impacts while maintaining engineering performance standards.[3]

Research Profile

With 27 indexed publications, 204 citations, and an h-index of 7, Mitikie has established a scholarly record characterized by applied engineering research. His studies frequently explore sustainable alternatives to conventional construction materials, emphasizing durability, resource efficiency, and environmental performance. Research collaborations have expanded the practical relevance of his findings across civil engineering and materials science disciplines.[1]

Research Contributions

  • Investigation of bamboo leaf ash as a partial cement replacement material for sustainable concrete production.
  • Development of polyethylene lunar concrete production methodologies for extraterrestrial construction environments.
  • Evaluation of marble waste and scoria as sustainable alternatives to natural sand in concrete mixtures.
  • Research on durability and microstructural characteristics of blended cement systems.
  • Assessment of waste paper pulp ash utilization in eco-friendly concrete applications.

Publications

  • Experimental investigation on effect of partial replacement of cement with bamboo leaf ash on concrete property (2021).
  • Bottom-up heating method for producing polyethylene lunar concrete in lunar environment (2018).
  • Partial replacement of sand with marble waste and scoria for normal strength concrete production (2020).
  • Investigation on bond, microstructure and durability of blended cement systems (2022).
  • Partial replacement of cement by waste paper pulp ash and its effect on concrete properties (2022).

Research Impact

The research output of Mitikie has contributed to discussions surrounding sustainable infrastructure development and resource-efficient construction materials. Several publications have received notable citation attention, particularly studies examining alternative cementitious materials and waste utilization strategies. These contributions support broader efforts toward circular economy principles and environmentally conscious engineering practices.[4]

Award Suitability

Bahiru Bewket Mitikie demonstrates qualifications consistent with consideration for the Best Academic Researcher Award presented at the International Research Awards on Fiberreinforced Polymer. His record of peer-reviewed publications, interdisciplinary collaborations, and contributions to sustainable material technologies aligns with the objectives of recognizing scholarly excellence and research innovation. The practical significance of his investigations further supports the relevance of his work within the broader field of advanced composite and construction materials.[5]

Conclusion

The academic contributions of Bahiru Bewket Mitikie illustrate a sustained commitment to sustainable engineering research and innovative material development. Through investigations involving concrete technology, recycled materials, and bio-inspired engineering concepts, he has generated knowledge relevant to contemporary infrastructure and materials science challenges. His scholarly profile reflects meaningful engagement with research topics that support sustainable development and technological advancement.[6]

References

  1. Elsevier. (n.d.). Scopus author details: Bahiru Bewket Mitikie, Author ID 57195584119. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57195584119
  2. Abebaw, G., Bewket, B., & Getahun, S. (2021). Experimental investigation on effect of partial replacement of cement with bamboo leaf ash on concrete property.
    https://doi.org/10.1155/2021/6468444
  3. Lee, J., Ann, K.Y., Lee, T.S., & Mitikie, B.B. (2018). Bottom-up heating method for producing polyethylene lunar concrete in lunar environment.
    https://doi.org/10.1016/j.asr.2018.03.026
  4. Yifru, B.W., & Mitikie, B.B. (2020). Partial replacement of sand with marble waste and scoria for normal strength concrete production.
    https://doi.org/10.1007/s42452-020-03748-2
  5. Chofore, A.T., Mitikie, B.B., & Haile, A.T. (2022). Experimental investigation on bond, microstructure and durability of blended cement systems.
    https://doi.org/10.1186/s40069-022-00589-8
  6. Mitikie, B.B., & Waldtsadik, D.T. (2022). Partial replacement of cement by waste paper pulp ash and its effect on concrete properties.
    https://doi.org/10.1155/2022/8880196

Touha Nazrun | Composite Materials | Best Researcher Award

Mrs. Touha Nazrun | Composite Materials | Best Researcher Award

Mrs. Touha Nazrun | Western Sydney University | Australia

Mrs. Touha Nazrun is an emerging researcher in fire safety engineering whose work demonstrates strong scientific promise, technical depth, and consistent research productivity. Her role as a Casual Research Assistant at Western Sydney University involves conducting experimental studies on the application of developed intumescent coatings on aluminium sheets, ACP cladding panels, gypsum boards, and concrete materials, with a focus on enhancing fire resistance and evaluating material performance under high-temperature conditions. She has authored several peer-reviewed publications in reputable journals, including contributions to Sustainability, Progress in Organic Coatings, and Fire, covering topics such as sustainable biopolymer-based cladding materials, fire performance improvements of aluminium composite panels, and comprehensive reviews of intumescent coating formulations and manufacturing methods. Her conference paper on the fire behaviour of aluminium sheets coated with intumescent materials earned a Best Paper Award, underscoring the originality and impact of her research. She maintains an active research pipeline with submitted and ready-to-submit manuscripts addressing material characterization, polymer–mineral filler compositions, and the use of recycled silicon dioxide in coating systems. Her scientific contributions extend to practical fire safety advancements, sustainable material development, and performance evaluation of protective coatings, reflecting her commitment to solving real-world engineering challenges. Beyond research, she has participated in technical conferences, volunteered in professional events related to fire safety engineering, and engaged in community and organizational activities, demonstrating a strong service orientation alongside academic excellence. Her growing body of work positions her as a promising researcher contributing valuable knowledge to the fields of fire protection materials, sustainable cladding technologies, and applied fire safety engineering.

Profile:  Scopus | ORCID | Google Scholar | ResearchGate

Featured Publications

Nazrun, T., Hassan, M. K., Hossain, M. D., Ahmed, B., Hasnat, M. R., & Saha, S. (2024). Application of biopolymers as sustainable cladding materials: A review. Sustainability, 16(1), 27.

Nazrun, T., Hassan, M. K., Hasnat, M. R., Hossain, M. D., Ahmed, B., & Saha, S. (2025). A comprehensive review on intumescent coatings: Formulation, manufacturing methods, research development, and issues. Fire, 8(4), 155.

Nazrun, T., Hassan, M. K., Hasnat, M. R., Hossain, M. D., & Saha, S. (2025). Improving fire performance of solid aluminium and composite cladding panels incorporating intumescent coatings. Progress in Organic Coatings, 201, 109142.

Nazrun, T., Hassan, M. K., Hasnat, M. R., Hossain, M. D., & Saha, S. (2024). Comparative study on fire behaviour of solid aluminium sheets coated with intumescent materials. Proceedings of the International Conference on Fire Safety Engineering Research and Practice.

Mukhlis A Rahman | Composite Materials Science | FRP Academic Excellence Award

Assoc Prof Dr. Mukhlis A Rahman | Composite Materials Science | FRP Academic Excellence Award

University Teknologi Malaysia, Malaysia

Profiles:

🏛️Current Position

Dr. Mukhlis bin A Rahman is a renowned professor at the Department of Energy Engineering, Faculty of Chemical and Energy Engineering, Universiti Teknologi Malaysia (UTM), where he specializes in ceramic membranes and microporous materials for fluid separation. His work is pivotal in developing sustainable energy solutions. Dr. Mukhlis is also actively involved in teaching, mentoring students, and spearheading research initiatives that align with global energy needs.

🔬 Ongoing Research

Dr. Mukhlis is currently engaged in cutting-edge research on the application of ceramic membranes in fluid separation processes. His ongoing projects focus on enhancing the efficiency of microporous materials to improve separation and purification processes, which have widespread applications in industries such as water treatment, gas separation, and fuel cells. He is also exploring novel photocatalytic reactors for organic wastewater treatment, further extending his research to environmental sustainability.

🔎 Research Interests

  • Ceramic membranes for fluid separation: Developing advanced materials to improve separation processes in various industrial applications.
  • Microporous materials: Investigating new porous materials that can enhance separation efficiency.
  • Photocatalytic reactors: Exploring innovative solutions for the treatment of organic pollutants in wastewater.

His expertise extends to both theoretical and applied aspects of chemical engineering, particularly in membrane technology and its applications.

🎓 Academic Background

Dr. Mukhlis’ academic journey began with a Bachelor’s degree in Chemical Engineering from Universiti Teknologi Malaysia (UTM), completed in 2004. He later pursued a Master’s degree in Chemical Engineering (Gas) at UTM, finishing in 2006. His thirst for knowledge led him to Imperial College London, where he completed his Ph.D. in Chemical Engineering in 2011. This strong academic foundation has provided him with the expertise to contribute significantly to chemical and energy engineering fields.

🏅 Scholarships and Awards

Dr. Mukhlis has been the recipient of numerous prestigious awards throughout his career. 

  • 15 international awards, including recognition for his work on SPEEK-Nanoclay membranes.
  • 8 national awards, underscoring his contributions to Malaysia’s scientific and academic landscape.
  • 26 UTM awards, reflecting his excellence in research and teaching.
  • 5 faculty awards for his dedicated service to the Faculty of Chemical and Energy Engineering.

Notable honors include the Best of the Best Award and Gold Medal at PECIPTA 2013, as well as several Excellent Service Awards from UTM.

🧬 Bioinformatics Contributions

Although Dr. Mukhlis’ primary focus is on chemical engineering, his interdisciplinary approach has led him to explore bioinformatics applications, particularly in materials science and fluid dynamics. By incorporating computational models, he enhances the predictive power of his research on membrane technology.

👥 Professional Associations

Dr. Mukhlis is an active member of several professional associations, both national and international. His involvement in these organizations not only allows him to collaborate with other experts but also to stay updated on the latest advancements in his field.

🛠️ Training & Workshops

Throughout his career, Dr. Mukhlis has participated in various workshops and training sessions, contributing to his professional development. These programs have allowed him to refine his skills in advanced chemical engineering techniques, and he frequently shares his expertise by organizing and leading similar workshops for students and professionals.

🎤 Oral Presentations

Dr. Mukhlis has delivered numerous presentations at international conferences, sharing his insights on ceramic membranes and microporous materials. His engaging and informative talks have made him a sought-after speaker in the global chemical engineering community.

📝 Tasks Completed as a Researcher

Dr. Mukhlis has successfully completed several high-impact research projects. His work on developing novel ceramic membranes and photocatalytic reactors has advanced fluid separation processes. His projects often involve cross-disciplinary collaboration, reflecting his ability to work at the intersection of engineering, chemistry, and environmental science.

🌟 Success Factors

Dr. Mukhlis attributes his success to a combination of rigorous academic training, a passion for innovation, and a commitment to excellence. His ability to stay ahead of industry trends and his interdisciplinary approach have allowed him to make groundbreaking contributions to membrane technology.

🔬 Publications & Laboratory Experience

Dr. Mukhlis has an extensive list of publications in high-impact journals. His research is often cited by fellow academics, further solidifying his position as a leader in his field. His laboratory experience is equally impressive, having overseen numerous experiments that have led to the development of innovative materials for fluid separation.

📖Publications:

Paper Title: Effect of capillary pressure on the CO2 flux in the pores of membrane contactor: Theory and simulation results

  • Authors: Ahmad, S.N.A., Matsuura, T., Jaafar, J., Othman, M.H.D., A Rahman, M.
  • Journal: Chemical Engineering Research and Design
  • Year: 2023

Paper Title: Tailoring surface structure and diameter of etched fiber Bragg grating for high strain sensing

  • Authors: Koo, K.N., Ismail, A.F., Othman, M.H.D., A Rahman, M., Samavati, A.
  • Journal: Optics and Laser Technology
  • Year: 2023

Paper Title: Self-cleaning and anti-fouling superhydrophobic hierarchical ceramic surface synthesized from hydrothermal and fluorination methods

  • Authors: Abd Aziz, M.H., Othman, M.H.D., Tavares, J.R., A Rahman, M., Jaafar, J.
  • Journal: Applied Surface Science
  • Year: 2022

Paper Title: Adsorptive Membrane for Boron Removal: Challenges and Future Prospects

  • Authors: Mehanathan, S., Jaafar, J., Nasir, A.M., Bilad, M.R., Naseer, M.N.
  • Journal: Membranes
  • Year: 2022

Paper Title: A review of the potential of conventional and advanced membrane technology in the removal of pathogens from wastewater

  • Authors: Nasir, A.M., Adam, M.R., Mohamad Kamal, S.N.E.A., A Rahman, M., Wan Salleh, W.N.
  • Journal: Separation and Purification Technology
  • Year: 2022

 

Azim Uddin | Composite Materials Science | Best Researcher Award

Dr. Azim Uddin | Composite Materials Science | Best Researcher Award

Doctorate at School of Materials Science & Engineering, Zhejiang University, China

Profiles:

📝Introduction

Dr. Engineering Azim Uddin stands as a luminary in the field of advanced smart multifunctional materials, with a focus on metallic fibers, 2D micro-nanostructures, porous carbon, and biomass-cellulose-based polymer composites. His contributions span across microwave absorption, electromagnetic shielding, dielectrics, energy storage, and high-frequency measurements. With an impressive portfolio of over 15 publications in major international journals, accumulating 400+ citations, and an h-index of 12, Dr. Uddin is recognized as one of the most promising young researchers in his field.

🎓Educational Background

Dr. Uddin’s academic journey commenced at the PAF-Karachi Institute of Economics and Technology (PAF KIET) in Pakistan, where he earned his Bachelor’s in Electronics Engineering with a commendable CGPA of 3.52/4.0. His exceptional performance earned him several Presidential and Directorial Academic Awards, including the Best Final Year Project Award at SPEC’2014.

He further honed his expertise by pursuing a Master’s degree in Nanotechnology and Materials for Micro & Nano-systems at the National University of Science and Technology MISiS, Russia. Under the guidance of Prof. Larissa V. Panina, Dr. Uddin achieved a remarkable CGPA of 4.95/5.0, securing scholarships and accolades such as the Science Day Conference award in Moscow.

Driven by an insatiable curiosity and a desire to push the boundaries of material science, Dr. Uddin pursued his Ph.D. at Zhejiang University, China. His doctoral research, supervised by Research Prof. Faxiang Qin, focused on the intricate physics and chemistry of materials, laying the foundation for his future innovations in smart composite materials.

🔬Professional Experience and Research Contributions

Dr. Uddin’s professional trajectory is marked by his postdoctoral research at Zhejiang University, where he has been instrumental in advancing the understanding and development of electromagnetic composite materials. His role as a postdoctoral researcher has seen him engage in several high-impact projects, including those funded by the National Natural Science Foundation of China (NSFC). His work on high-performance stealthy metacomposites and integrated Bio-Giant Magnetoimpedance sensors has significantly contributed to the field’s knowledge base.

Before his current role, Dr. Uddin gained valuable experience as a Project Coordinator for International Academic Affairs at NUST MISiS, Moscow, and as a Research Intern at National Chiao Tung University, Taiwan. His diverse experiences, ranging from system support engineering to advanced research internships, have equipped him with a unique blend of practical and theoretical knowledge.

👨‍🏫Teaching and Mentorship

Beyond research, Dr. Uddin is also a dedicated educator. As a Teaching Assistant at Zhejiang University, he has played a pivotal role in guiding students through complex subjects such as Materials Design & Processing, Polymer Nanocomposites, and Fundamentals of Electromagnetic Composites. His commitment to teaching extends back to his time at PAF-KIET, where he served as a Teaching Assistant and Grader, and as an Adjunct Teacher at the Private Karachi Institute of Education in Pakistan.

His mentorship has also extended to supervising undergraduate research projects, such as the study on the magnetic properties of amorphous microwire used in magnetic cores by Li Haoyang, a B.Sc. student at Zhejiang University.

🏆Accolades and Recognition

Dr. Uddin’s contributions have been widely recognized. In 2023, he was awarded the prestigious Young Researcher Award by the Chinese Society of Composite Materials (CSCM). He has also been the recipient of multiple scholarships and awards throughout his academic and professional journey, including the Two-High Doctoral Scholarship from Zhejiang University and accolades from various international conferences, such as the Best Oral Poster Presentation at the Saint Petersburg OPEN Conference-2017.

🎙️Invited Talks and Conferences

Dr. Uddin’s expertise is regularly sought after in international forums. He has delivered invited talks at prestigious institutions, including Zhejiang University, Habib University in Pakistan, and Beijing University of Technology. His presentations, often centered around the recent advancements in metacomposite materials and their applications, have positioned him as a thought leader in the field.

📚Publications and Research Impact

With a robust publication record, Dr. Uddin’s research findings have been disseminated widely, influencing both academia and industry. His work on microwave programmable responses in Co-based microwire polymer composites and the development of sustainable green shielding materials are particularly noteworthy. His publications, many of which are co-authored with other leading researchers, demonstrate his collaborative spirit and his ability to contribute meaningfully to multi-disciplinary projects.

 👥Memberships and Academic Services

Dr. Uddin is an active member of several esteemed professional organizations, including the Chinese Society of Composite Materials (CSCM) and the Pakistan Engineering Council (PEC). He also serves on the editorial boards of various scientific journals, contributing to the peer-review process and ensuring the dissemination of high-quality research.

✍️Conclusion

Dr. Azim Uddin’s career is a testament to his dedication, expertise, and innovative spirit. His work in the field of advanced composite materials and nanotechnology continues to break new ground, promising to shape the future of material sciences. As he continues his research and academic endeavors, Dr. Uddin’s impact is sure to resonate across the global scientific community, inspiring the next generation of researchers and engineers.

📖Publications:

Paper Title: Recycling of binary polymer (PET/SBR) carpet into microfibrillar composites: A life cycle perspective with microplastics quantification

  • Authors: Yasin, S., Hussain, M., Uddin, A., Shi, J., Song, Y.
  • Journal: Sustainable Materials and Technologies
  • Year: 2024

Paper Title: A Roadmap from Functional Materials to Plant Health Monitoring (PHM)

  • Authors: Babangida, A.A., Uddin, A., Stephen, K.T., Zhang, L., Ge, D.
  • Journal: Macromolecular Bioscience
  • Year: 2024

Paper Title: Electric–magnetic synergism in BaTiO3-magnetic microwire/silicone rubber composites for enhanced microwave and electromagnetic shielding tunability

  • Authors: Estevez, D., Uddin, A., Salem, M.
  • Journal: European Physical Journal Plus
  • Year: 2023

Paper Title: Broadband measurements of the surface impedance in ferromagnetic wires as a boundary condition for scattering problems

  • Authors: Uddin, A., Qin, F., Estevez, D., Zhao, Y., Makhnovskiy, D.
  • Journal: Measurement Science and Technology
  • Year: 2023

Paper Title: Thermally Stable Silicone Elastomer Composites Based on MoS2@Biomass-Derived Carbon with a High Dielectric Constant and Ultralow Loss for Flexible Microwave Electronics

  • Authors: Uddin, A., Estevez, D., Khatoon, R., Qin, F.
  • Journal: ACS Applied Materials and Interfaces
  • Year: 2023