Dr. Jie Li | Engineering |Editorial Board Member

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Dr. Jie Li | Engineering |Editorial Board Member

Beijing University of Chemical Technology | China

Dr. Jie Li is an emerging and highly promising researcher in the field of power engineering, engineering thermophysics, and advanced composite materials, known for his strong technical foundations, innovative thinking, and growing academic influence. He is currently affiliated with Beijing University of Chemical Technology, where he conducts cutting-edge research on composite material lightweight structural design, multilayer heat conduction mechanisms, torsional lamination technology, and anisotropic thermal functional materials. Dr. Li focuses on establishing high-performance lightweight structural systems through multilayer thermal resistance modelling, providing scientific solutions for next-generation energy systems, aerospace materials, and high-efficiency heat-transfer structures. His research achievements include 25 published academic documents, which have collectively received 661 citations across 597 documents, reflected by an impressive h-index of 16, underscoring his expanding academic visibility and contribution to the materials and thermal sciences community. Dr. Li is the author of impactful research such as Lamination Magic for Heat Transfer: Anisotropic Functional Composites Based on Multilayer Thermal Conductivity Modeling, demonstrating his expertise in coupling theoretical modelling with experimental validation to enhance material performance. In addition to his research accomplishments, Dr. Li has received multiple academic honors, including doctoral scholarships, national graduate scholarships, and merit-based awards, recognizing his excellence, dedication, and leadership in graduate studies. He possesses strong capabilities in mechanical design, manufacturing technology, 3D modelling, finite-element analysis, and simulation software, being proficient in SolidWorks, AutoCAD, 3D-Deform, ANSYS, Origin, and integrated digital research tools. Dr. Li’s innovative approach to composite structural engineering, combined with his technical expertise and consistent research output, positions him as a rising scholar capable of making long-term contributions to high-performance materials engineering and thermophysical system design.

Profile: Orcid | Scopus

Featured Publications

Li, J. (2025). HLDP nano-assembly boosts monosultap insecticidal activity against Asian corn borers through enhanced neurotoxicity and energy depletion. Pesticide Biochemistry and Physiology.

Li, J. (2025). Naphthalimide-conjugated spiropyran: Dual-state emission and photo-responsive dynamic fluorescence color for information encryption application. Advanced Functional Materials.

Meng Li | Engineering | Best Researcher Award

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Dr. Meng Li | Engineering | Best Researcher Award 

Li Meng is an Assistant Researcher at Northwestern Polytechnical University specializing in ultra-fast laser processing of advanced engineering materials. His research focuses on developing low-damage, high-precision processing technologies, particularly for turbine film cooling holes. He has contributed to national and university-level projects, secured multiple patents, and published in leading journals such as the Journal of Materials Processing Technology and Journal of Manufacturing Processes. Collaborating with top institutions, Li Meng continues to advance innovations in precision manufacturing, bridging academic research with industrial applications.

Dr. Meng Li | Northwestern Polytechnical University | China

Profiles

SCOPUS

ORCID

Education

  • Li Meng pursued higher studies with a strong focus on advanced manufacturing and materials processing. Throughout the academic journey, he developed expertise in laser processing technologies and the application of engineering principles to complex material challenges. His education provided him with a solid foundation in mechanical and aeronautical sciences, equipping him with both theoretical knowledge and hands-on skills to contribute effectively to high-level research in ultra-fast laser processing

Experience

  • Li Meng has dedicated his professional career to research in the field of ultra-fast laser processing of advanced engineering materials. He has actively contributed to major national projects and university-led innovations that focus on improving the quality and efficiency of laser-based manufacturing processes. His experience extends beyond academic work, as he has also contributed to consultancy and industry-based projects, bridging the gap between theoretical research and industrial application.

Awards and Recognition

  • Through consistent innovation and impactful research, Li Meng has earned recognition within the academic and professional community. His contributions to advancing low-damage laser processing techniques and collaborative works with esteemed institutions have strengthened his reputation as a promising researcher. The successful execution of funded projects and achievements in securing patents further reflect his ability to transform scientific ideas into practical outcomes that have long-term value.

Skills and Expertise

  • Li Meng has developed strong skills in ultra-fast laser processing, advanced materials engineering, and precision manufacturing. He demonstrates expertise in applying innovative approaches to reduce material damage while achieving high precision in processing. His collaborative spirit and ability to work across multidisciplinary teams further enhance his effectiveness in research. Additionally, his skills extend to project execution, problem-solving, and translating research into practical engineering solutions.

Research Focus 

  • Li Meng’s research primarily revolves around ultra-fast laser processing of advanced engineering materials. He has concentrated on optimizing processing methods to achieve superior quality and minimal material damage. His focus on turbine film cooling hole technology highlights his contribution to the aerospace and energy sectors, where precision and durability are essential. His work is paving the way for high-performance material applications that meet the demanding requirements of modern engineering industries.

Publications

Creep life prediction of Ni‐based single‐crystal superalloy plate with film‐cooling holes using a modified critical distance method based on the improved weight function
Authors: Ping Wang, Zhixun Wen, Meng Li, Guangxian Lu, Zhenwei Li, Pengfei He
Journal: Fatigue & Fracture of Engineering Materials & Structures

High temperature creep property of a novel porous double layer cooling structure for gas turbine blades
Authors: Ping Wang, Meng Li, Zhixun Wen, Chengjiang Zhang, Zhenwei Li, Pengfei He
Journal: Engineering Fracture Mechanics

Femtosecond laser high-quality drilling of film cooling holes in nickel-based single superalloy for turbine blades with a two-step helical drilling method
Authors: Meng Li, Zhi-xun Wen, Ping Wang, Yu-xing Liu, Zhen-wei Li, Zhu-feng Yue
Journal: Journal of Materials Processing Technology

Oxidation behavior of a nickel-based single crystal superalloy at 1100° C under different oxygen concentration
Author: Meng Li
Journal: Journal of Materials Science

Effect of aging heat treatment on microstructure of Ni-based single crystal superalloys
Authors: Zhengxing Feng, Zhixun Wen, Meng Li, Yanchao Zhao, Zhufeng Yue
Journal: AIP Advances

Conclusion

  • Li Meng stands out as a researcher who combines technical knowledge, innovative thinking, and practical application in the field of ultra-fast laser processing. His dedication to advancing precision manufacturing technologies and his strong collaborative network make him a valuable contributor to both academic and industrial research. With continued efforts, he is well-positioned to make further breakthroughs that will strengthen the future of advanced material processing and laser-based manufacturing technologies.

Xuanze Wang | Engineering | Best Researcher Award

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Prof. Xuanze Wang | Engineering | Best Researcher Award

Professor Xuanze Wang is a Professor and Master’s Supervisor at the School of Mechanical Engineering, Hubei University of Technology. He earned his Doctor of Engineering in Mechanical Manufacturing and Automation from Huazhong University of Science and Technology in 2005. A recipient of the Ministry of Education’s New Century Excellent Talent award, he specializes in precision measurement, embedded systems and analog circuit design, and digital signal processing and automatic control. He has led two National Natural Science Foundation of China projects, participated in over ten national and provincial research initiatives, and published more than 50 peer-reviewed papers.

Prof. Xuanze Wang | Hubei Institute of Technology | China

Profile

🎓Education

  • Professor Xuanze Wang earned his Doctor of Engineering degree in Mechanical Manufacturing and Automation from Huazhong University of Science and Technology in 2005, laying a solid academic foundation in the field of mechanical engineering.

👨‍🏫 Experience

  • He currently serves as a Professor and Master’s Supervisor at the School of Mechanical Engineering, Hubei University of Technology. From July 2010 to July 2011, he undertook a one-year academic visit at the University of Huddersfield in the United Kingdom, expanding his international academic collaborations and exposure.

🤝 Awards

  • Professor Wang was selected as a New Century Excellent Talent by the Ministry of Education, recognizing his outstanding academic potential and contributions to engineering education and research.

💡Skills and Certifications

  • He possesses extensive expertise in precision measurement methodologies, embedded systems and analog processing circuit design, as well as digital signal processing and automatic control methods, integrating both theoretical knowledge and practical engineering skills.

🔬 Research Focus

  • His research primarily focuses on precision measurement techniques, embedded systems development, analog circuit design, and digital signal processing with applications in automatic control. He has presided over two projects funded by the National Natural Science Foundation of China and participated in more than ten national and provincial-level research initiatives. His scholarly output includes over 50 peer-reviewed papers, contributing valuable knowledge to the engineering research community.

🌎Conclusion

  • Xuanze Wang is highly suitable for the Research for Best Researcher Award. His combination of prolific research output, leadership in funded projects, international collaboration, and recognition by the Ministry of Education align well with the award’s criteria for research excellence, innovation, and impact. His contributions not only advance engineering science but also provide practical solutions across industries, making him a compelling candidate for this honor.

📖Publications

  • Robust vertical scanning interferometry at a long coherence length
    Authors: Zhao Hang, Xie Yijun, Zhu Renlong, Liu Shiyuan, Zhu Jinlong
    Journal: Optics and Lasers in Engineering, 2025

  • 3D reconstruction of a highly reflective surface based on multi-view fusion and point cloud fitting with a structured light field
    Authors: Feng Wei, Liu Qianqian, Wang Henghui, Xu Jiangtao, Wang Xuanze
    Journal: Applied Optics, 2025

  • A Micro-Current Measurement Method Based on Bidirectional Search to Eliminate Operational Amplifier Offset Voltage
    Authors: Wang Xuanze, Li Yuchen, Yang Zhenyu, Zhai Zhongsheng
    Journal: Chinese Journal of Sensors and Actuators, 2025

  • Moving sine average-based surface recovery method with enhanced noise resistance in white light interferometry
    Authors: Dong Zhengqiong, Zhu Renlong, Zhao Hang, Zhu Jinlong, Nie Lei
    Journal: Optical Engineering, 2025

  • Robust function guided color encoded single fringe pattern and unwrapping method
    Authors: Liu Da, Yu Xiatian, Li Xuelian, Zou Jianchao, Zhang Yuqing
    Journal: Optics Communications, 2025

Nan Nan | Engineering | Best Researcher Award

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Dr. Nan Nan | Engineering | Best Researcher Award

Nan Nan is a lecturer at the University of Science and Technology Liaoning, specializing in Mineral Processing Engineering. With a PhD from Northeastern University, China, their research focuses on flotation reagents, process mineralogy, and the comprehensive utilization of mineral resources. Nan Nan has published several SCI papers and received funding from the Liaoning Higher Education Research Fund. They have also led industry projects, including process optimization for various mineral processing plants, and won the 2nd Prize of the Science and Technology Progress Award from the China Gold Association.

Dr. Nan Nan | University of Science and Technology Liaoning | China

Profile

SCOPUS  ID

ORCID ID

🎓 Education

  • Nan Nan earned a PhD in Mineral Processing Engineering from Northeastern University, China, where they gained in-depth knowledge and expertise in mineral processing technologies.

💼 Experience

  • Currently serving as a lecturer at the University of Science and Technology Liaoning, Nan Nan has gained substantial industry experience by leading and participating in multiple enterprise-commissioned projects. Notably, these include energy efficiency evaluations and process examination projects for several mineral processing plants and mines across China.

 🏆 Honors and Awards

  • Nan Nan has been recognized with the 2nd Prize of the Science and Technology Progress Award from the China Gold Association. Additionally, Nan Nan has received funding support from the Liaoning Higher Education Research Fund.

🛠️ Skills and Certifications

  • Nan Nan possesses strong expertise in mineral processing engineering, flotation performance, process mineralogy, and the development of flotation reagents. With experience in optimizing grinding processes and flotation collectors, Nan Nan has contributed to enhancing the efficiency and cost-effectiveness of mineral processing operations.

🔬 Research Focus

  • Nan Nan’s research primarily focuses on mineral processing engineering, flotation reagent research and development, process mineralogy, and the comprehensive utilization of mineral resources. The work aims to advance flotation technology, process optimization, and to reduce operational costs, particularly in harsh mining conditions such as those in Northeast China.

Conclusion

  • Nan Nan is an ideal candidate for the Research for Best Researcher Award due to their exceptional academic background, groundbreaking contributions to industry practices, and continuous pursuit of research innovation. Their combination of industry collaborations, academic publications, and awarded research makes them a deserving nominee for this prestigious recognition.

📄Publications

  • Molecular modeling of interactions between N-(Carboxymethyl)-N-tetradecylglycine and fluorapatite
    Authors: Nan, N., Zhu, Y., Han, Y., Liu, J.
    Journal: Minerals, 2019, 9(5), 278
  • Flotation performance and mechanism of α-Bromolauric acid on separation of hematite and fluorapatite
    Authors: Nan, N., Zhu, Y., Han, Y.
    Journal: Minerals Engineering, 2019, 132, pp. 162–168
  • Froth flotation giant surfactants
    Authors: Li, Z., Fu, Y., Li, Z., Zhu, Y., Li, Y.
    Journal: Polymer, 2019, 162, pp. 58–62

Mr. Wajid Khan | Information Engineering | Best Researcher Award | 1128

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Mr. Wajid Khan | Information Engineering |  Best Researcher Award

Mr. Wajid Khan, Tianjin University , China

Professional Profile

Scopus

OrcID

EARLY ACADEMIC PURSUITS 📘

Wajid Khan holds a bachelor’s degree in electrical engineering. His undergraduate years were marked by a profound passion for the field and a commitment to academic excellence. Engaging in various research activities, Wajid demonstrated his dedication and produced a notable publication that highlights his early contributions to electrical engineering.

PROFESSIONAL ENDEAVORS 💼

Currently, Wajid is pursuing his MS in Electrical Information and Communication Engineering at Tianjin University. Under the expert supervision of Professor Feng Renhai, he is delving deeper into his field, focusing on critical areas such as renewable energy and power system stability. This advanced education and hands-on research are shaping him into a knowledgeable and skilled professional.

 CONTRIBUTIONS AND RESEARCH FOCUS 📚

  • Wajid’s research is centered on cutting-edge topics, particularly renewable energy and power system stability. These areas are vital for sustainable development, and his work is contributing to addressing some of the most pressing challenges in the field. His dedication is evident through his involvement in high-impact research projects, highlighting his commitment to advancing knowledge and technology in electrical engineering.

IMPACT AND INFLUENCE 🌍

Working closely with Professor Feng Renhai has provided Wajid with invaluable experience and insight. This collaboration has allowed him to deepen his understanding of critical issues in electrical engineering and contribute meaningfully to the academic and professional community. His research not only advances theoretical knowledge but also has practical implications for solving real-world problems.

 ACADEMIC CITES 📑

Wajid’s academic journey is marked by significant achievements, including a notable publication during his undergraduate studies. This accomplishment underscores his dedication to research and his ability to contribute valuable insights to the field. His ongoing work continues to build on this foundation, promising further contributions and advancements.

PLEGACY AND FUTURE CONTRIBUTIONS 🌟

As Wajid continues his graduate studies, he is eager to expand his knowledge and make meaningful contributions to the field of electrical engineering. His goal is to drive innovation and have a positive impact on sustainable energy solutions. Wajid’s commitment to pushing the boundaries of knowledge ensures that his legacy will include significant advancements in electrical engineering and contributions to a more sustainable future.

 

NOTABLE PUBLICATIONS

Transient Stability Analysis of Electrical Power Systems using Polynomial Approximation based Galerkin Method

Authors: Li, Z., Khan, W., Wang, J., Wan, C., Feng, R.
Conference: 2023 5th International Conference on Power and Energy Technology, ICPET 2023
Pages: 1235–1240
Year: 2023

A Systematic Novel Implementation on Photovoltaic Power, Wind Energy and Solar Energy Models

Authors: Lei, Y., Khan, W., Wu, Y., Liu, Y., Feng, R.
Journal: Proceedings of SPIE – The International Society for Optical Engineering
Volume: 12594
Issue: N/A
Pages: 125940W
Year: 2023