Zheng Liu | Material Science | Best Researcher Award

Published on by Applied Scientist

Dr. Zheng Liu | Material Science | Best Researcher Award

Researcher at Taihang Laboratory | China

Dr. Zheng Liu is an accomplished materials scientist and engineer whose expertise spans polymer chemistry, physics, and advanced composite materials for aerospace applications. As an associate researcher at the Lightweight Structure and Materials Manufacturing Research Center, jointly affiliated with Taihang Laboratory and Northwestern Polytechnical University, he has made significant contributions to the development, optimization, and mechanistic understanding of polymer- and ceramic-based composite materials. His research focuses on structural/functional integrated composites, wave-transparent and wave-absorbing composites, ceramic matrix composites, and thermal conductive composites, with applications in aviation flight vehicles and power systems. Dr. Liu’s work has led to notable advancements implemented in pre-research aircraft and propulsion systems. He has authored over 20 high-impact journal publications, including multiple ESI Hot Papers and Highly Cited Papers, and holds 10 national invention patents. His scholarly influence is further reflected in his authorship of a monograph with Springer Nature, contributions to Wiley and Intech publications, and service as a guest editor and peer reviewer for prestigious journals. Recognized as a national-level young talent and recipient of multiple awards, Dr. Liu combines academic excellence with industrial application, bridging fundamental materials research with real-world engineering solutions.

Professional Profile

Scopus | ORCID

Education

Dr. Zheng Liu’s academic foundation reflects a continuous and focused progression toward expertise in advanced composite materials and their engineering applications. He began his undergraduate studies at Nanchang Hangkong University, earning a bachelor’s degree in materials science with a strong emphasis on polymer chemistry and structural materials. Building on this, he pursued a master’s degree at Northwestern Polytechnical University, where he deepened his research into polymer-based composites and interface modification strategies, gaining hands-on experience with laboratory synthesis and performance testing. His master’s research provided the groundwork for his doctoral studies, also at Northwestern Polytechnical University, where he conducted extensive research on structural/functional integrated composites, particularly focusing on wave-transparent and thermal-conductive materials for aerospace applications. Throughout his academic journey, Dr. Liu actively engaged in national and provincial research projects, honing his skills in both experimental techniques and theoretical modeling. His education not only equipped him with solid scientific knowledge but also cultivated his ability to translate complex material designs into practical engineering applications. This strong academic progression laid the foundation for his current role as a leading engineer and researcher in high-performance composite materials for advanced aerospace systems.

Professional Experience

Dr. Zheng Liu currently serves as an engineer at the Taihang Laboratory, working closely with the Lightweight Structure and Materials Manufacturing Research Center in collaboration with Northwestern Polytechnical University. In this role, he applies his deep expertise in polymer and ceramic matrix composites to develop advanced structural and functional materials for aerospace applications. His work focuses on optimizing composite architectures, improving interface bonding, and enhancing performance parameters such as thermal conductivity, dielectric properties, and wave transparency. Dr. Liu plays a critical role in integrating research innovations into practical engineering solutions, particularly for aviation flight vehicles and power systems. His contributions have been successfully implemented in pre-research aircraft projects, demonstrating both technological and industrial impact. In addition to his engineering responsibilities, Dr. Liu serves as an industry mentor for engineering master’s degree students, guiding the next generation of researchers. He has also been actively involved in national and provincial-level research initiatives, collaborating with multidisciplinary teams on high-profile projects supported by organizations such as the National Natural Science Foundation of China. His dual role as a researcher and engineer ensures that his work maintains a balance between cutting-edge science and functional application.

Research Interest

Dr. Zheng Liu’s research interests lie at the intersection of polymer science, composite engineering, and aerospace material innovation. He specializes in the design, fabrication, and performance optimization of polymer-based and ceramic-based composites for high-performance structural and functional applications. His work encompasses structural/functional integrated composites, wave-transparent composites, wave-absorbing materials, and thermal conductive composites, all tailored for demanding operational environments. A key focus of his research is the modification of composite interfaces, aimed at improving mechanical strength, thermal stability, and electromagnetic properties. Dr. Liu is particularly interested in uncovering the intrinsic mechanisms governing composite material behaviors, enabling precise optimization for aerospace and defense systems. He integrates experimental studies with theoretical modeling to establish structure–property relationships, ensuring material designs meet both functional and structural demands. Additionally, he explores novel fabrication and processing methods, such as polymer modification and hybrid reinforcement strategies, to achieve multi-functional integration. His research aligns with national priorities in aerospace innovation, with outcomes directly applied to aviation flight vehicles and propulsion systems. Ultimately, Dr. Liu aims to advance next-generation lightweight, high-strength, and multi-functional composite materials that push the boundaries of aerospace engineering and materials science.

Research Skills

Dr. Zheng Liu possesses a broad and specialized skill set that supports his work in advanced composite materials research and development. His materials synthesis and processing expertise includes polymer modification, ceramic matrix fabrication, fiber surface functionalization, and hybrid composite assembly. He is proficient in interface engineering techniques, employing advanced compatibilizers, polymer grafting, and surface coatings to enhance composite bonding and performance. Dr. Liu is skilled in materials characterization methods such as scanning electron microscopy, transmission electron microscopy, X-ray diffraction, Fourier-transform infrared spectroscopy, and thermogravimetric analysis. His mechanical property evaluation capabilities include tensile, flexural, impact, and interlaminar shear testing, as well as thermal and dielectric property assessments. He has significant experience in wave-transparency and electromagnetic testing, critical for aerospace applications. Beyond experimental skills, Dr. Liu is adept in scientific writing and publishing, having authored numerous high-impact papers and book chapters. He is also experienced in project leadership, managing interdisciplinary teams and overseeing multiple national and provincial research initiatives. His combination of hands-on laboratory expertise, analytical skills, and engineering insight enables him to translate cutting-edge research into practical, industry-ready composite materials solutions.

Awards and Honors

Dr. Zheng Liu has been widely recognized for his scientific excellence, innovation, and impactful contributions to advanced composite materials research. He has been selected for national-level and provincial-level talent programs, including the China Association for Science and Technology Young Talent Support Program, underscoring his status as an emerging leader in materials science. His achievements have earned multiple prestigious honors, such as the Wiley China High Contribution Author Award, the COS Award in Materials Science for Best Researcher, the First Prize in the Cross-Strait Youth Composite Materials Innovation and Entrepreneurship Competition, and the Excellent Paper Award from the Chinese Society of Composite Materials. Dr. Liu’s research impact is reflected in his role as first or corresponding author on over 20 high-impact journal publications, including multiple ESI Hot Papers and Highly Cited Papers, with several exceeding 100 citations. His intellectual property portfolio includes 10 national invention patents, and his academic influence extends through his authorship of a Springer Nature monograph, a co-authored Wiley monograph, and multiple book chapters. These awards and honors highlight his dedication to advancing aerospace material technologies and his contributions to bridging academic research with engineering applications.

Publications Top Notes

Title: A review on optimal preparation of multi-component fillers and fibers with excellent wideband microwave absorbing performance through the electromagnetic loss engineering
Year: 2025

Title: Optimal Preparation and Inherent Mechanism of Advanced Integrated Structural/Electromagnetic Wave-Absorbing Polymer-Based Composites for Aeronautical Applications: A Review
Year: 2025

Title: Interfacial strengthening and processing of carbon fibers reinforced poly(ether-ether-ketone) composites: A mini-review
Year: 2024

Title: A mini-review of ultra-low dielectric constant intrinsic epoxy resins: Mechanism, preparation and application
Year: 2024

Title: Block copolymer functionalized quartz fibers/cyanate ester wave-transparent laminated composites
Year: 2023

Conclusion

Dr. Zheng Liu represents a new generation of materials scientists whose work bridges fundamental research and practical engineering in aerospace composite materials. With a solid academic foundation, extensive research experience, and a proven track record of translating innovations into industrial applications, he exemplifies the integration of science and technology. His contributions to polymer-based and ceramic-based composite optimization have already been implemented in pre-research aircraft and propulsion systems, showcasing the real-world value of his research. As a national-level young talent and award-winning author, Dr. Liu continues to influence the field through his publications, patents, and editorial work. His mentorship of graduate students and active participation in collaborative research projects further extend his impact within the scientific community. Driven by a commitment to advancing lightweight, high-strength, and multi-functional materials, Dr. Liu is poised to contribute significantly to the future of aerospace engineering and high-performance composites. His career reflects both academic rigor and industrial relevance, making him a leading figure in the evolving landscape of advanced materials science.

Zheng Liu | Material Science | Best Researcher Award

Published on by Applied Scientist

Mr. Zheng Liu | Material Science | Best Researcher Award

Assistant Professor at College of Material Science and Engineering, State Ker Laboratory of Materials Low-Carbon Recycling, Beijing University of Technology, China

Zheng Liu is an emerging researcher specializing in materials science with a particular focus on glass composites, sealing technologies, and structural relaxation mechanisms. Currently serving as a Research Associate at the State Key Laboratory of Materials Low-Carbon Recycling, College of Material Science and Engineering, Beijing University of Technology, Dr. Liu is committed to advancing the fundamental understanding and practical performance of glass-to-metal sealing systems. His academic path began with a Bachelor’s degree in Powder Metallurgy at Central South University and was furthered by a rigorous doctoral program at the Institute of Nuclear and New Energy Technology, Tsinghua University. With a strong foundation in both theoretical analysis and applied research, he has authored numerous impactful publications in top-tier journals such as the Journal of the American Ceramic Society, Ceramics International, and Physical Chemistry Chemical Physics. His research has garnered recognition and funding from the National Natural Science Foundation of China. Zheng Liu is driven by a mission to enhance material reliability in high-temperature and energy environments, and he continues to contribute to China’s innovation landscape through both research excellence and collaborative efforts in materials engineering.

Professional Profile

Education

Zheng Liu pursued his academic training at two of China’s most prestigious institutions, establishing a robust interdisciplinary foundation in materials science. He earned his Bachelor’s degree in Powder Metallurgy from the Powder Metallurgy Research Institute at Central South University, Changsha, between 2016 and 2020. During this period, he gained essential knowledge in advanced ceramics, metallurgy, and composite materials, which laid the groundwork for his future specialization in sealing and glass systems. To deepen his scientific rigor and research capabilities, he then enrolled in a Ph.D. program at the Institute of Nuclear and New Energy Technology, Tsinghua University, from September 2020 to June 2025. His doctoral work focused on the atomic-level dynamics of glass and glass-metal interfaces, a subject vital to energy applications and thermal engineering. Through his education, he acquired sophisticated analytical skills and became proficient in spectroscopic and computational tools, all of which are critical to understanding complex glass behaviors. These formative academic experiences equipped him with a unique blend of theoretical insight and practical proficiency, empowering him to tackle key challenges in low-carbon material development and glass sealing technologies.

Professional Experience

Zheng Liu began his professional research career in July 2025 as a Research Associate at the Beijing University of Technology, affiliated with the State Key Laboratory of Materials Low-Carbon Recycling in the College of Material Science and Engineering. His role involves leading and collaborating on critical projects related to glass-to-metal sealing, structural relaxation, and thermal-mechanical behavior in advanced materials. In this capacity, Dr. Liu applies his deep knowledge of borosilicate glass systems and their interaction with metallic substrates, particularly under high-temperature conditions. His responsibilities also include conducting photoluminescence spectroscopy, finite-element modeling, and thermal analysis to study stress evolution and interfacial behavior. Working in a multidisciplinary research environment, he coordinates with fellow scientists and engineers to translate theoretical knowledge into materials that meet industrial demands for efficiency, durability, and environmental sustainability. Prior to this appointment, his doctoral work was enriched with hands-on research projects and collaborations across materials science labs, where he demonstrated the ability to manage complex experiments and publish impactful findings. His early career reflects a strong trajectory of research commitment, innovative thinking, and technical excellence, setting the stage for significant contributions in the field of structural materials and sustainable engineering.

Research Interest

Zheng Liu’s research interests lie at the intersection of materials science, nuclear engineering, and applied physics, with a focus on glass/glass composite systems, advanced sealing materials, and structural relaxation phenomena. He is particularly intrigued by the mechanical behavior of glass-to-metal seals under thermal and mechanical stress, aiming to enhance their stability, performance, and longevity. A significant portion of his research explores the residual stress mechanisms in glass composites, with an emphasis on how glass solidification and interfacial bonding affect stress distribution. His investigations extend into photoluminescence spectroscopy as a tool for detecting microregion stress and the use of finite-element modeling for predictive stress analysis. Dr. Liu is also committed to understanding how additives like alumina nanoparticles influence glass properties at the atomic and structural levels. These interests are deeply aligned with developing next-generation sealing materials for nuclear, aerospace, and energy systems. His current work contributes to the broader scientific goal of optimizing the thermal-mechanical integration of dissimilar materials. Driven by real-world applications and sustainability concerns, Dr. Liu seeks to advance low-carbon material solutions that can withstand harsh environments while maintaining functional integrity over extended service lives.

Research Skills

Zheng Liu possesses a comprehensive suite of research skills that underpin his cutting-edge work in materials science. He is proficient in a wide range of experimental techniques including photoluminescence spectroscopy, X-ray diffraction, thermal analysis (DSC/TGA), and electron microscopy (SEM/TEM), which he uses to characterize material interfaces and microstructural behavior. Additionally, he has strong expertise in finite-element modeling and simulation tools to investigate stress distribution and failure mechanisms in glass-to-metal seals. His ability to design and implement experiments on glass solidification and bonding behavior is supported by his deep understanding of structural relaxation at atomic and macroscopic scales. Zheng Liu is also adept at statistical analysis and data interpretation, ensuring the rigor and reliability of his findings. His experience with high-temperature furnace systems and controlled atmosphere conditions enables him to replicate industrial sealing environments accurately. Beyond technical skills, Dr. Liu has honed his scientific writing, grant proposal development, and collaborative research management, allowing him to contribute effectively to multidisciplinary teams. With a focus on precision, innovation, and problem-solving, his skill set is aligned with the demands of modern materials research and application in energy and structural systems.

Awards and Honors

Zheng Liu’s promising research career has already been recognized with prestigious support and accolades. Most notably, he secured funding from the National Natural Science Foundation of China (Grant No. 523B2008) for the period of May 2024 to December 2025. This grant is a testament to the national recognition of his innovative work in glass-to-metal seals and low-carbon materials. His scientific contributions have resulted in the publication of eleven peer-reviewed articles in high-impact journals such as Journal of the American Ceramic Society, AIP Advances, and Ceramics International. Several of these papers have addressed critical issues in stress distribution and interfacial bonding, providing novel insights into thermal-mechanical behavior in composite materials. His ability to consistently publish significant research has earned him a growing reputation among peers and senior academics alike. During his doctoral and undergraduate studies, he was also likely to have received institutional recognitions for academic excellence and research engagement, although specific honors were not explicitly detailed. His early-career achievements position him as a rising figure in the field of functional materials for high-performance and energy-critical applications.

Conclusion

Zheng Liu stands out as a talented early-career researcher with a focused expertise in glass composites and sealing technologies, poised to make lasting contributions to the field of materials science. His academic foundation, built at Central South University and Tsinghua University, is complemented by a robust portfolio of research that bridges theoretical investigation with practical application. Now serving as a Research Associate at the Beijing University of Technology, he applies his skills to address critical challenges in low-carbon materials and energy systems. His publications reveal a consistent dedication to solving real-world problems, particularly in the optimization of glass-to-metal seals and structural integrity under stress. Funded by the National Natural Science Foundation of China, Zheng Liu continues to build a body of work that is both scientifically rigorous and industrially relevant. With strong analytical abilities, technical proficiency, and a clear vision for sustainable materials innovation, he represents the next generation of scholars committed to transforming the way we understand and engineer functional materials. His career trajectory suggests a future rich with discovery, collaboration, and meaningful societal impact in the domain of energy-efficient and high-performance materials.

Publications Top Notes

  1. Title: Assessing residual stress generation and entrapment in glass-to-metal seals: role of glass solidification during the cooling process
    Authors: Keqian Gong, Chao Zhou, Zheng Liu, Zifeng Song, Zhangjing Shi, Weisong Zhou, Yong Zhang
    Year: 2025

  2. Title: Atomic origin and dynamics of structural relaxation in borosilicate glass below glass transition temperature
    Authors: Zheng Liu, Keqian Gong, Zifeng Song, Chao Zhou
    Year: 2025

  3. Title: Strain rebound and inhomogeneity in glass-to-metal seals: Radial vs axial strain evolution
    Authors: Keqian Gong, Zheng Liu, Zifeng Song, Chao Zhou, Zhangjing Shi, Siyue Nie, Weisong Zhou, He Yan, Zhichun Fan, Yong Zhang
    Year: 2025

  4. Title: Revealing the effect of alumina addition on the residual stress in glass-to-metal seals via photoluminescence spectroscopy
    Authors: Keqian Gong, Zheng Liu, Yangyang Cai, Zifeng Song, Chao Zhou, Jing Liu, Yuna Zhao, Yong Zhang
    Year: 2024

  5. Title: Sealing Ni-Cr/Ni-Al alloys with borosilicate glass: Bonding strength, sealing interface, and fracture behavior
    Authors: Zheng Liu, Chao Zhou, Keqian Gong, Yanfei Sun, Cheng Ren, Zifeng Song, Zhangjing Shi, Yong Zhang
    Year: 2024

  6. Title: Assessment of residual stress evolution in glass-to-metal seals amid heating process: Insights from in situ observations and finite-element analysis
    Authors: Keqian Gong, Zifeng Song, Yangyang Cai, Zheng Liu, Zhangjing Shi, Chao Zhou, He Yan, Yong Zhang
    Year: 2024

  7. Title: Strength, microstructure and bonding mechanism of borosilicate glass-to-SA105 carbon steel seals
    Authors: Zheng Liu, Yangyang Cai, Keqian Gong, Chao Zhou, Chen Wang, Yuna Zhao, Yong Zhang
    Year: 2024

  8. Title: Photoluminescence spectroscopy to detect microregion stress distribution in glass‐to‐metal seals
    Authors: Zheng Liu, Keqian Gong, Yangyang Cai, Zhen Chen, Yong Zhang
    Year: 2024

  9. Title: Calibration for determination of compressive stress in glass‐to‐metal seals via photoluminescence spectroscopy
    Authors: Zheng Liu, Yangyang Cai, Keqian Gong, Weisong Zhou, Fengen Chen, Yong Zhang
    Year: 2024

  10. Title: Optimization mechanism and high-temperature properties of Al₂O₃/Cu-reinforced sealing glass
    Authors: Yangyang Cai, Zheng Liu, Keqian Gong, He Yan, Yuna Zhao, Yong Zhang
    Year: 2024

  11. Title: Effects of Al₂O₃ nanoparticles on the properties of glass matrix composites for sealant applications
    Authors: Zheng Liu, Keqian Gong, Chao Zhou, Zifeng Song, Yong Zhang
    Year: 2023