Nikos Mantadakis | Engineering | Best Researcher Award

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Mr. Nikos Mantadakis | Engineering | Best Researcher Award

PhD candidate | Aristotle University of Thessaloniki (AUTh) | Greece

Nikolaos (Nikos) Mantadakis is a Greek civil engineer and researcher specializing in the numerical modeling and analysis of floating offshore structures, with a strong focus on the co-exploitation of wind and wave energy systems. His research integrates computational hydrodynamics, structural dynamics, and hydroelasticity to develop advanced simulation frameworks for hybrid offshore energy platforms. He has contributed to the development and validation of computational tools such as HAMS-MREL and has published in leading journals including Renewable Energy and the Journal of Marine Science and Engineering. His works address aero-hydro-servo-elastic coupling, hydrodynamic interactions, and resilience assessment of marine and coastal infrastructure. As part of his scientific engagement, he has actively participated in the COST Action “WECANet,” promoting European collaboration in marine renewable energy research, and contributed to the conceptual design of the FORCYS floating offshore wind turbine. Mantadakis also serves as a reviewer for international conferences and journals in offshore and polar engineering, demonstrating his recognized expertise in the field. With 78 citations from 75 documents, 7 published works, and an h-index of 4, his ongoing research aims to enhance the understanding and performance optimization of floating energy systems through advanced computational methods, supporting the sustainable development of offshore renewable energy technologies.

Profile: Scopus

Featured Publications

Raghavan, V., Loukogeorgaki, E., Mantadakis, N., Metrikine, A. V., & Lavidas, G. (2024). HAMS-MREL, a new open source multiple body solver for marine renewable energies: Model description, application and validation. Renewable Energy, 237, 121577.

 

Liping Guo | Engineering | Best Researcher Award

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Prof. Dr. Liping Guo | Engineering | Best Researcher Award

Vice President | School of Materials Science & Engineering | China

Prof. Liping Guo is a distinguished researcher and Full Professor in the field of materials science and engineering, specializing in ecological high-ductility cementitious composites, multi-scale damage and life prediction of concrete under complex conditions, and solid waste recycling technology with fiber surface modification. Her research contributes significantly to sustainable construction materials and advanced cement-based composites. With over 140 research publications, 23 authorized national invention patents, and two published books, her scientific contributions have been widely recognized and applied in major national infrastructure projects, yielding substantial technical, economic, and social benefits. Prof. Guo has successfully led more than ten national, provincial, and ministerial-level research projects, including those under the National Natural Science Foundation of China and the 973 Program, as well as numerous industry collaborations. Her work bridges fundamental material science and practical engineering applications, advancing the field of green and resilient concrete materials. She has received multiple national and provincial scientific and technological progress awards, including second prizes from the Ministry of Education and the Fujian provincial government. Additionally, she has made remarkable achievements in teaching and talent cultivation, guiding several award-winning student innovation teams and numerous postgraduate researchers. Her Scopus record includes 7 indexed documents, 94 citations from 90 documents, and an h-index of 5, reflecting her growing academic impact in the field of sustainable cementitious composites and concrete durability science.

Profile:  Scopus

Featured Publications

Guo, L., (2025). Performance evolution of high ductility cementitious composites under different curing regimes: Hydration kinetics, microstructure development, and mechanical behavior. Construction and Building Materials.

Sharmin Sultana | Life Science | Best Researcher Award

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Ms. Sharmin Sultana | Life Science | Best Researcher Award

PhD Student | Nicolaus Copernicus University in Torun | Poland

Sharmin Sultana is a dynamic researcher specializing in molecular biology, bioinformatics, and translational biotechnology, with a focus on integrating wet-lab and computational approaches for genomic, transcriptomic, and proteomic investigations. Her research primarily explores hepatoprotective molecular mechanisms of medicinal herb extracts against aflatoxin B1-induced liver toxicity using both in-vivo and in-vitro models. She has expertise in high-throughput sequencing, small RNA library preparation, miRNA and mRNA data analysis, and functional genomics, employing advanced R/Bioconductor pipelines for differential expression, target prediction, and enrichment analyses. Her recent contributions include studies on microRNA modules in liver transcriptomes, aflatoxin detection and mitigation strategies, and SARS-CoV-2 variant diagnostics using liquid array technology. Sharmin has presented her work at several international conferences in Poland, Germany, and Spain, earning recognition for excellence in research presentation. Her interdisciplinary collaborations span molecular biology, animal biotechnology, and computational genomics, contributing to projects funded under international research consortia. She is proficient in tools such as Cytoscape, MEGA, CLC Genomics Workbench, and BLAST, and skilled in CRISPR-Cas9 genome editing and primary hepatocyte culture. Sharmin’s growing publication record in high-impact journals and conference proceedings reflects her commitment to advancing molecular diagnostics, toxicogenomics, and bioinformatics-driven therapeutic development, bridging experimental and computational biology toward innovative biomedical solutions.

Profiles:  Orcid | Google Scholar

Featured Publications

Kępka-Borkowska, K., Chałaśkiewicz, K., Ogłuszka, M., Borkowski, M., Lepczyński, A., Pareek, C. S., Starzyński, R. R., Lichwiarska, E., Sultana, S., Kalra, G., Purohit, N., Gralak, B., Poławska, E., & Pierzchała, M. (2025). Current approaches to aflatoxin B1 control in food and feed safety: Detection, inhibition, and mitigation. International Journal of Molecular Sciences, 26(13), 6534.

Chałaśkiewicz, K., Kępka-Borkowska, K., Starzyński, R. R., Ogłuszka, M., Borkowski, M., Pierzchała, M., Lepczyński, A., Sultana, S., Kalra, G., Purohit, N., Pareek, C. S., & Poławska, E. (2025). Impact of aflatoxins on the digestive, immune, and nervous systems: The role of microbiota and probiotics in toxicity protection. International Journal of Molecular Sciences, 26(17), 8258.

Sharma, P., Asediya, V., Kalra, G., Sultana, S., Purohit, N., Kibitlewska, K., Pareek, C. S., & Wimmers, K. (2025). Hepatoprotective effect of silymarin herb in prevention of liver dysfunction using pig as animal model. Nutrients, 17(20), 3278.

Pareek, C. S., Sachajko, M., Kalra, G., Sultana, S., Szostak, A., Chałaśkiewicz, K., Kępka-Borkowska, K., Poławska, E., Ogłuszka, M., Pierzchała, M., Starzyński, R. R., Taniguchi, H., Juszczuk-Kubiak, E., Lepczyński, A., Ślaska, B., Kozera, W., Czarnik, U., Kadarmideen, H. N., Te Pas, M. F. W., … Szyda, J. (2025). Identification of trait-associated microRNA modules in liver transcriptome of pig fed with PUFAs-enriched supplementary diet. Journal of Applied Genetics, 66(2), 389–407.

Sultana, S. (2024). Liquid array diagnostics technology for SARS-CoV-2 variant detection. Inland Norway University of Applied Sciences.

Zhiguo Tang | Battery Thermal Management System | Best Researcher Award

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Prof. Zhiguo Tang | Battery Thermal Management System | Best Researcher Award

Professor | Hefei University of Technology | China

Dr. Tang Zhiguo is an accomplished Associate Professor and Master’s Supervisor at the Hefei University of Technology, specializing in thermal and energy systems engineering. His research primarily focuses on flow and heat transfer enhancement technologies, thermal management of new energy vehicle power batteries and electronic systems, and green, low-carbon combustion technologies. Dr. Tang has made significant contributions to the development of microchannel and jet impingement heat transfer systems, biomass gasification and hydrogen-enriched combustion methods, and integrated thermal management strategies for electric vehicles and data centers. With over 71 academic publications indexed in SCI and EI, including papers in top-tier journals such as the International Journal of Heat and Mass Transfer, Applied Thermal Engineering, Journal of Energy Storage, and Journal of Cleaner Production, his work has garnered 754 citations from 674 documents, reflecting an h-index of 15. He is also the first inventor on more than 40 invention patents, over half of which have been granted and successfully commercialized, contributing to advancements in clean energy and efficient thermal systems. Beyond his research, Dr. Tang actively contributes to national and provincial technical committees on combustion, energy conservation, and intelligent manufacturing standards, reinforcing his leadership in sustainable thermal system innovation. His mentorship has guided numerous graduate and undergraduate students to national recognition, further extending his influence in both academic and applied research communities.

Profiles: Scopus 

Featured Publications

Tang, Z., et al. (2025). Thermal management performance study of a novel immersion-cooling cylindrical battery module with graduated-height-finned heat-dissipation sleeves. Journal of Energy Engineering.

Tang, Z., et al. (2025). Multi-objective optimization of a hybrid nanofluid jet impingement microchannel heat sink with stepped airfoil fins based on machine learning. Engineering Analysis with Boundary Elements.

Tang, Z., et al. (2025). Multi-objective optimization of parallel flow immersion cooling battery thermal management system with flow guide plates based on artificial neural network. Applied Thermal Engineering.

Tang, Z., et al. (2025). Experimental study on the aging cylindrical battery thermal management system with honeycomb metal skeleton and composite phase change material. Applied Thermal Engineering.

Tang, Z., et al. (2025). Multi-objective optimization of flow boiling heat transfer in a manifold microchannel heat sink with curved corners. International Journal of Heat and Mass Transfer.

Tang, Z., et al. (2025). Multi-objective geometric optimization of protrusion, droplet ribs, and inclined upper plate of a slit jet impingement heat sink to enhance its thermal performance. Chemical Engineering and Processing: Process Intensification.

Tang, Z., et al. (2025). Study on the flow and heat transfer characteristics of a hybrid nanofluid jet impingement microchannel heat sink with airfoil fins. Asia-Pacific Journal of Chemical Engineering.

Jeongho Ahn | Computer Aided Machine Design | Best Researcher Award

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Prof. Jeongho Ahn | Computer Aided Machine Design | Best Researcher Award

Professor | Arkansas State University | United States

Dr. Jeongho Ahn is a distinguished Professor in the Department of Mathematics and Statistics at Arkansas State University, with a strong research record in applied mathematics, numerical analysis, partial differential equations, and computational mechanics. His research primarily focuses on dynamic contact problems, finite element methods, complementarity problems, and differential variational inequalities, contributing significantly to the mathematical modeling and numerical simulation of complex mechanical systems involving frictional and thermal effects. Dr. Ahn has authored over twenty-three refereed journal publications, including influential works on viscoelastic and thermoviscoelastic beam systems, frictional contact, and nonlinear dynamic analysis, many of which have appeared in leading journals such as Nonlinear Analysis: Real World Applications, Applied Mathematics and Computation, and SIAM Journal on Numerical Analysis. His scholarly output has achieved 190 citations across 123 documents with 23 Publication an h-index of 9, reflecting his growing impact in applied and computational mathematics. In addition to research, Dr. Ahn has contributed to mathematics education through co-authoring the Instructor’s Solutions Manual for Elementary Numerical Analysis published by John Wiley & Sons. His academic excellence, extensive teaching portfolio, and collaborative research with global experts underscore his significant contributions to the advancement of numerical and applied mathematical sciences.

Profiles: Scopus 

Featured Publications

  • Chun, S., & Ahn, J. (2026). Dynamic contact of a beam–rod system with Signorini typed contact conditions and thermal effects. Nonlinear Analysis: Real World Applications, 87, Article 104440.

  • Ahn, J. (2023). A generalized Duffing equation with the Coulomb’s friction law and Signorini–type contact conditions. Nonlinear Analysis: Real World Applications, 74, Article 103936.

Fanxin Liu | Structural Design | Best Researcher Award

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Prof. Fanxin Liu | Structural Design | Best Researcher Award

Zhejiang University of Technology | China

Dr. Fanxin Liu is a distinguished physicist and professor at the School of Physics, Zhejiang University of Technology, specializing in plasmonics, nanophotonics, and ultrathin dielectric materials. He earned his Ph.D. in condensed matter physics from Huazhong University of Science and Technology, where his research focused on ultrathin diamond-like carbon (DLC) films for magnetic recording applications. Over the years, Dr. Liu has held academic and research positions at premier institutions, including Zhejiang University of Technology, Nanjing University, and the University of Southern California, contributing significantly to the fields of plasmonic nanostructures, surface-enhanced Raman scattering (SERS), quantum optics, photocatalysis, and nanomaterials for optoelectronic devices. His innovative work explores the plasmonic characteristics of metal nanostructures, development of highly sensitive SERS substrates, and plasmonic enhancement in quantum dots, solar cells, and LEDs, alongside studies on the mechanical and electrical properties of ultrathin DLC films for technological applications. With numerous peer-reviewed publications in prestigious journals and multiple Chinese patents, Dr. Liu has made substantial advancements in both theoretical and applied physics. His research output includes 78 documents, accumulating 1,909 citations across 1,653 documents, with an h-index of 22, reflecting his strong scientific influence and interdisciplinary impact. Recognized with honors such as the Excellent Postdoctoral Award and industry distinctions, Dr. Liu also serves as a reviewer for several international journals. His work continues to advance the frontiers of plasmonic materials, nanophotonics, and functional thin films, contributing to innovations in sensing, energy harvesting, and nanotechnology-based devices.

Profiles: Scopus 

Featured Publications

2025. Targeted molecular rapid SERS diagnosis in clinical human serum through aptamer origami-collapsed nanofingers chip. Biosensors and Bioelectronics.

2025. Enhanced light absorption of graphene sheet with large bandwidth tunability in visible and near-infrared range. Physics Letters A: General, Atomic and Solid State Physics.

2025. Functionalized nanofinger enhances pretrained language model performance for ultrafast early warning of heart attacks. ACS Applied Bio Materials.

2025. Topologically protected dynamically controllable multifunctional on-chip integrated photonic circuits. Journal of Physics D: Applied Physics.

2025. Second-harmonic radiation by on-chip integrable mirror-symmetric nanodimers with sub-nanometric plasmonic gap. Nanophotonics (Open access).

2025. Directional excitation of multi-dimensional coupled topological photonic states based on higher-order chiral source. Photonics (Open access).

2025. Nonlinear light boosting of anisotropic lithium niobate by anapole states in plasmonic nanocavities. ACS Photonics.

 

Jose Mario Ferreira Jr | Materials Characterization | Excellence in Research Award

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Dr. Jose Mario Ferreira Jr | Materials Characterization | Excellence in Research Award

Research Scientist  | Iowa State University | United States

Dr. Jose Mario Ferreira Junior is a highly accomplished researcher and academic specializing in Materials Science and Engineering, with a strong foundation in chemical engineering, surface modification, corrosion protection, and advanced materials characterization. His professional journey spans research, teaching, and industrial collaboration across leading institutions in the United States, the United Kingdom, Portugal, and Brazil. He has contributed significantly to the development of graphene oxide, electrochemical membranes, and protective coatings for metallic substrates, as well as innovations in corrosion-resistant materials and nuclear technology applications. Dr. Ferreira Junior has served as a Research Scientist, Postdoctoral Fellow, and Professor, mentoring graduate students and managing multidisciplinary research projects focused on material development and electrochemical performance. His research interests encompass nanostructured materials, electrochemical impedance spectroscopy (EIS), X-ray photoelectron spectroscopy (XPS), graphene-based composites, and sustainable corrosion protection technologies. A reviewer for several international journals, he has authored 28 scientific publications, accrued 156 citations across 127 documents, and achieved an h-index of 7, reflecting the impact and relevance of his work in the global materials science community. Among his recognitions, he received the Ludwig Rudolf Spier Award for excellence in ecological and sustainable innovation, underscoring his commitment to advancing environmentally friendly material technologies.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Ferreira Junior, J. M., Barretto, T. C. M., Souza, C. A. C., & Ribeiro, D. V. (2025). Study of the efficacy of zinc oxalate conversion coating in protecting structures containing galvanized steel in corrosive environments with pH variation. Materials Research.

Ferreira, J. M., Johnson, P. A., Shukla, V., & Perdana, M. Y. (2025). Temperature-dependent X-ray degradation in dicarboxylic acids: Insights from low-temperature XPS analysis. Applied Surface Science Advances.

Ferreira, J. M., Johnson, P. A., Shukla, V., & Perdana, M. Y. (2025). Temperature-dependent X-ray degradation in dicarboxylic acids: Insights from low-temperature XPS analysis. SSRN.

Ferreira, J. M., Doria, A. R., Sodré, M. B., Eguiluz, K. I. B., Salazar-Banda, G. R., Silva, A. C. M., Wahab, H., Johnson, P. A., Baker, M. A., & Mattedi, S. (2024). Electrochemical properties of Ti/(Ru₀.₃Ti₀.₇)O₂ anodes: The influence of the anion chain in butylammonium-based ionic liquids. Applied Surface Science.

Ferreira, J. M., Dória, A. R., Sodré, M. B., Eguiluz, K. I. B., Salazar-Banda, G. R., Silva, A. C. M., Wahab, H., Johnson, P. A., Baker, M. A., & Mattedi, S. (2024). Electrochemical properties of Ti/(Ru₀.₃Ti₀.₇)O₂ anodes: The influence of the anion chain in butylammonium-based ionic liquids. SSRN.

Ferreira Júnior, J. M., Trindade, G. F., Simonelli, G., de Moraes Pires, C. A., da Silva, A. C. M., Rossi, J. L., dos Santos, L. C. L., & Johnson, P. A. (2024). X-ray induced degradation during XPS analysis of dicarboxylic acid powders. Applied Surface Science.

Ferreira, J. M., Trindade, G. F., Simonelli, G., de Moraes Pires, C. A., da Silva, A. C. M., Rossi, J. L., dos Santos, L. C. L., & Johnson, P. A. (2023). X-ray induced degradation during XPS analysis of dicarboxylic acid powders. SSRN.

Vasconcelos, D. S., Lima, S. B., Ferreira Junior, J. M., Simonelli, G., Santos, L. C. L., & Pires, C. A. M. (2023). A study on fluidization of a ternary mixture characteristic of the bio-oil production process. Biomass Conversion and Biorefinery.

 

Zhanwei Liu | Computer Technology For Design | Excellence in Innovation Award

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Prof. Zhanwei Liu | Computer Technology For Design | Excellence in Innovation Award

School of Information Science and Technology | China

Professor Zhanwei Liu is a distinguished faculty member and master’s supervisor at Shijiazhuang Tiedao University, China, with research expertise spanning intelligent optimization algorithms, computer vision, and cross-disciplinary engineering applications, emphasizing the enhancement of algorithmic convergence, stability, and efficiency. He has significantly contributed to the development of intelligent optimization frameworks, multi-UAV path planning, and image processing systems, integrating artificial intelligence with complex engineering problems. Holding advanced academic qualifications in computer science and information technology, complemented by professional training in intelligent systems and automation, Professor Liu demonstrates strong leadership in academic research and industry-oriented innovation. As a Professor at the School of Computer and Information Technology, he supervises postgraduate students in AI and optimization research and serves as an expert reviewer for national research programs such as the National Key R&D Program of China. He is an active member of the China Computer Federation (CCF) and the China Automation Society (CAA), also serving as a Provincial Science and Technology Commissioner, licensed technology transfer professional, and core member of provincial innovation teams, contributing to advancements in smart transportation, digital twin technologies, and engineering informatics. His primary research focuses on intelligent optimization algorithms, biomimetic swarm intelligence, computer vision, and complex system modeling, emphasizing adaptive strategies, transfer learning, and deep learning for improved performance in real-world engineering systems. Professor Liu’s exceptional academic and industrial achievements have earned him several provincial and national-level awards, including the Hebei Youth Science and Technology Innovation Award, Scientific and Technological Progress Prizes, and Industry-University-Research Collaboration Awards, along with recognition as a “Bohai Talent” Outstanding Contributor and as a developer of national technical standards for railway infrastructure monitoring. With more than  and growing international recognition, his impactful research is reflected in 3 published documents, 3 citations,  and an h-index of 1, underscoring his rising influence in the global AI and intelligent systems research community.

Profile: Scopus

Featured Publications

Liu, Z., & Wang, H. (2025). Study of course system adjustment mechanism based on the employment needs. In J. Smith & R. Chen (Eds.), Proceedings of the International Conference on Education and Employment Trends 2025 (pp. 45–52). Springer

Lesiba George Mollo | Construction Management | Best Researcher Award

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Dr. Lesiba George Mollo | Construction Management | Best Researcher Award

Senior Lecturer | Central University of Technology, Free State | South Africa

Dr. Lesiba George Mollo is a Senior Lecturer at the Central University of Technology, Free State, South Africa, in the Department of Built Environment, Faculty of Engineering, Built Environment and Information Technology. He specializes in construction management and health and safety management, teaching at both undergraduate and postgraduate levels. His research focuses on construction health and safety, construction management, wearable technology applications in construction, and building energy management. He holds a PhD in Construction Management, an M-Tech in Quantity Surveying (Cum Laude), and a B-Tech and National Diploma in Quantity Surveying and Building, complemented by certifications in project management and safety training. Professionally, he has served in multiple academic leadership roles, including Deputy Research Dean, Department Research Chair, Research Cluster Coordinator, Acting Head of Department, and Senior Lecturer, with responsibilities encompassing academic administration, research, innovation, and community engagement. His industrial experience spans diverse construction projects, including wastewater treatment plants, residential complexes, and commercial buildings, enriching his academic insights with practical expertise. Dr. Mollo has authored numerous peer-reviewed journal papers, book chapters, and conference proceedings, including the book Training-Within-Industry Job Programs for Improved Construction Safety published by Routledge. He actively contributes to research supervision, journal reviewing, and academic conference organization within his field. His work demonstrates a strong commitment to advancing construction safety, sustainable infrastructure, and digital innovation in the built environment. Dr. Mollo has received recognition for his academic excellence and professional achievements, and his scholarly contributions include 14 published documents, 35 citations from 33 sources, and an h-index of 3.

Profile: Scopus Orcid Google Scholar

Featured Publications

Mollo, L. G. (2025, March). Evaluating the use of 360° video technology to monitor workers’ unsafe behaviour in the construction industry. In International Civil Engineering and Architecture Conference (pp. 685–693). Singapore: Springer Nature Singapore.

Qiang Chen | Structural Design | Best Researcher Award

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Dr. Qiang Chen | Structural Design | Best Researcher Award

Postdoctoral | National University of Defense Technology | China

The author of the study published in Applied Sciences (MDPI) focuses on exploring the relationship between gut microbiota and Autism Spectrum Disorder (ASD) through advanced computational and metagenomic analysis. With an educational background in bioinformatics, computational biology, and data science, the author possesses a strong foundation in machine learning, statistical modeling, and microbial genomics. Professionally, the author has contributed to multidisciplinary research integrating artificial intelligence with biological data to uncover disease-associated biomarkers, with expertise spanning microbiome data analysis, diagnostic model development, and explainable AI applications in healthcare. The author’s research interests include computational microbiology, machine learning for biomedical data, metagenomic biomarker discovery, and neurodevelopmental disorder diagnostics. Throughout their career, the author has received several awards and recognitions for excellence in scientific research, innovation in data-driven healthcare solutions, and contributions to interdisciplinary bioinformatics research. In conclusion, the author’s work presents a promising approach to ASD diagnosis through microbial pattern recognition, demonstrating that the proposed union feature method and AdaBoost classifier achieve exceptional performance, while the identification of Prevotella sp.

Profile: Orcid

Featured Publications

Chen, Q., Wan, H., Huang, C., Ye, Y., & Li, D. (2025). The thermomechanical coupling in diamond/SiC composites. Diamond and Related Materials, 112936.

Huang, J., Li, Y., Yu, X., Liu, Z., Wang, F., Yue, Y., Zhang, R., Dai, R., Yang, K., Liu, H., … Chen, Q. (2024). Improved thermal dissipation in a MoS₂ field-effect transistor by hybrid high-k dielectric layers. ACS Applied Materials & Interfaces.

Zhao, F.-Y., Jiang, J., Bai, S.-X., Chen, Q., & Ye, Y.-C. (2024). Evaluating predictive scheme for thermomechanical properties of Si-diamond composites. Scientific Reports.

Chen, Q., Bai, S., & Ye, Y. (2023). Highly thermal conductive silicon carbide ceramics matrix composites for thermal management: A review. Journal of Inorganic Materials.

Chen, Q., Zhu, L., Bai, S., & Ye, Y. (2023). Preparation and properties of highly thermal conductive C/C–SiC. Materials Today Communications, 36, 106595.

Ye, Y., Ni, Z., Huang, C., Bai, S., & Chen, Q. (2022). Constitutive model of elastic response for Fe–TiB₂ composites. Materials Today Communications, 33, 104620.

Ye, Y.-C., Zhao, F.-Y., Huang, C.-M., Bai, S.-X., & Chen, Q. (2022). Multiscale simulation and experimental measurements of the elastic response for constructional steel. Scientific Reports.

Jia, J., Li, C., Chen, Q., Bai, S., Chang, J., Xiong, D., Gao, M., Li, S., & Xiao, J. (2022). Effects of SiC content on the mechanical and thermophysical properties of 3D Cf/SiC–Al composites. Ceramics International, 48(14), 19919–19929.