Jingchao Xie | Architectural Engineering | Best Researcher Award

Prof. Jingchao Xie | Architectural Engineering | Best Researcher Award

Professor from Beijing University Of Technology, China

Jingchao Xie is a distinguished professor at Beijing University of Technology, specializing in architectural engineering with a strong emphasis on building energy efficiency and thermal performance. He serves as the Director of the Department of Architectural Environment and Energy Application Engineering and the Executive Director of the Key Laboratory of Green Building Environment and Energy-Saving Technology in Beijing. His expertise extends to zero-energy buildings, adaptive building envelopes, and phase-change materials for energy storage. He actively contributes to leading academic committees, including the Zero Energy Consumption Academic Committee and the Building Physics Committee of the China Architecture Society. His research is widely recognized, with numerous publications in high-impact journals, multiple patents, and extensive collaborations. His work has significantly advanced energy-efficient building technologies through innovative methodologies in thermal resistance optimization and adaptive building design. With an H-index of 22 on Web of Science, his contributions to sustainable architecture are globally acknowledged. As a member of the International Energy Agency’s Annex 66 Committee and other prestigious organizations, his research plays a crucial role in shaping the future of sustainable urban environments. His dedication to developing advanced energy-saving strategies has earned him recognition in both academic and industry circles, making him a leading figure in his field.

Professional Profile

Education

Jingchao Xie earned his Ph.D. in Architectural Engineering from Tohoku University, Japan, where he specialized in building energy efficiency and thermal performance. His doctoral research focused on optimizing energy consumption in buildings through innovative design methodologies, particularly in phase-change materials and thermal energy storage. Prior to his Ph.D., he completed his master’s degree in architectural engineering, deepening his expertise in energy-efficient building technologies. His academic journey provided a strong foundation in sustainable building design, passive and active energy management systems, and advanced modeling techniques for optimizing building performance. Throughout his education, he engaged in interdisciplinary research, combining engineering principles with environmental science to develop cutting-edge solutions for energy conservation. His studies at Tohoku University also exposed him to global perspectives on green architecture and climate-responsive building design. With a solid academic background, he has continued to apply his knowledge to real-world challenges, integrating research insights into practical applications in building design. His educational qualifications, coupled with his extensive research experience, have positioned him as a leader in the field of sustainable architecture and building energy efficiency, enabling him to contribute significantly to both academia and industry.

Professional Experience

Jingchao Xie currently serves as a professor at Beijing University of Technology, where he leads research on energy-efficient building technologies. He is the Director of the Department of Architectural Environment and Energy Application Engineering and the Executive Director of the Key Laboratory of Green Building Environment and Energy-Saving Technology in Beijing. In these roles, he has overseen numerous research projects funded by the National Key Research and Development Program of China and the National Natural Science Foundation of China. He also serves as a board member for multiple academic committees, including the Zero Energy Consumption Academic Committee and the Building Physics Committee of the China Architecture Society. Additionally, he is a member of the IEA Annex 66 Committee, contributing to international research on energy-efficient building design. His professional experience includes extensive collaboration with national and international institutions, guiding interdisciplinary teams in developing innovative energy-saving strategies. His leadership extends to industry collaborations, where he provides expert consultation on sustainable building practices. His extensive work in academia, combined with his contributions to professional organizations, underscores his influence in shaping policies and technological advancements in green building design and energy-efficient architectural solutions.

Research Interests

Jingchao Xie’s research focuses on sustainable building design, energy efficiency, and thermal performance optimization. His work primarily revolves around adaptive building envelopes, phase-change materials for energy storage, and non-equilibrium heat transfer mechanisms. He has pioneered methodologies for designing dynamic heat storage and release models, significantly improving the thermal efficiency of modern buildings. His interest in building physics has led to the development of innovative shading and lighting control systems, ensuring optimal energy use in different climate zones. He is also actively involved in research on zero-energy buildings, contributing to the formulation of policies and guidelines for sustainable urban development. His work integrates passive and active energy conservation strategies, bridging the gap between theoretical research and practical applications. His recent studies explore the potential of smart materials and intelligent building systems, leveraging advanced simulation techniques to optimize thermal resistance. His research extends beyond architecture to include environmental monitoring and climate adaptation, ensuring that his findings contribute to global efforts in mitigating climate change. Through interdisciplinary collaboration, he continues to push the boundaries of energy-efficient building design, aiming to create more resilient and environmentally friendly urban spaces.

Research Skills

Jingchao Xie possesses a diverse set of research skills that enable him to develop cutting-edge solutions in energy-efficient building technologies. He is proficient in thermal performance analysis, computational modeling, and experimental research on phase-change materials and adaptive building envelopes. His expertise includes designing and implementing energy monitoring systems, conducting thermal resistance optimization studies, and utilizing simulation software to predict building energy behavior. He has extensive experience in developing prototypes and conducting large-scale experiments to validate theoretical models. His skills in data analysis and machine learning allow him to optimize building performance through predictive analytics. Additionally, he has strong expertise in interdisciplinary collaboration, working with engineers, architects, and policymakers to implement sustainable building strategies. His ability to secure research funding and manage large-scale projects further enhances his contributions to the field. His patent portfolio demonstrates his ability to translate research into practical applications, with innovative solutions for shading, thermal energy storage, and climate-responsive building designs. His extensive publication record showcases his ability to communicate complex research findings effectively. His combination of technical expertise, problem-solving skills, and industry engagement makes him a leading researcher in sustainable architecture and energy efficiency.

Awards and Honors

Jingchao Xie has received numerous awards and honors in recognition of his outstanding contributions to architectural engineering and sustainable building research. He has been awarded prestigious research grants from the National Key Research and Development Program of China and the National Natural Science Foundation of China. His work has been highly cited, earning him an H-index of 22 on Web of Science, reflecting his significant impact on the field. His patents on innovative building materials and energy-efficient technologies have been widely recognized in both academic and industrial sectors. He has been honored by professional societies such as the China Architecture Society and the International Energy Agency for his contributions to zero-energy building research. Additionally, he serves as a board member and expert advisor for several national committees on energy conservation and green building technologies. His leadership roles in research institutions further highlight his influence in shaping the future of sustainable urban development. Through his pioneering research and dedication to advancing building energy efficiency, he has earned a distinguished reputation as a leading expert in the field, with accolades from both academia and industry for his groundbreaking work.

Conclusion

Jingchao Xie is an exceptional researcher whose contributions to sustainable architecture and energy-efficient building design have had a profound impact on the field. His extensive academic background, professional experience, and research expertise make him a strong candidate for the Best Researcher Award. His pioneering work in phase-change materials, thermal energy storage, and adaptive building envelopes has set new standards for energy conservation in modern architecture. With an impressive portfolio of high-impact publications, patents, and research projects, he continues to drive innovation in sustainable building technologies. His leadership in academic and professional organizations further underscores his commitment to advancing the field. His ability to bridge theoretical research with practical applications makes him a key influencer in shaping policies and industry practices for green buildings. While his work is highly accomplished, expanding collaborations with international research institutions and industry stakeholders could further enhance the global impact of his research. Overall, his dedication to sustainable urban development, innovative research methodologies, and commitment to academic excellence make him a deserving candidate for this prestigious award. His contributions will continue to shape the future of energy-efficient building technologies and drive progress in sustainable architecture.

Publication Top Notes

  1. Thermal effects of fin-microchannel structures for enhancing moisture transfer in an advanced liquid desiccant regenerator

    • Authors: Guangkai Zhang, Jingjie Tan, Honggang Liu, Jingchao Xie, Jiaping Liu
    • Year: 2025
  2. Infectious diseases prevention and control with reduced energy consumption in an airport

    • Authors: Tingrui Hu, Shujia Shang, Jingchao Xie, Peng Xue, Nan Zhang
    • Year: 2025
  3. Energy efficient design of internal cooling liquid desiccant dehumidification system based on useful exergy evaluation

    • Authors: Guangkai Zhang, Jingjie Tan, Honggang Liu, Jiaping Liu, Lin Lu
    • Year: 2025
  4. Research on the characteristics and influence factors of residential building energy usage patterns: A case study in Beijing

    • Authors: Ying Ji, Qianwen Lu, Menghan Niu, Nan Zhang, Jingchao Xie
    • Year: 2025
  5. Research on Real-Time Energy Consumption Prediction Method and Characteristics of Office Buildings Integrating Occupancy and Meteorological Data

    • Authors: Huihui Lian, Haosen Wei, Xinyue Wang, Ying Ji, Jingchao Xie
    • Year: 2025
  6. Kernel density estimation method to determine coincident design day for air-conditioning system design in marine climate of China

    • Authors: Shibo Gai, Xiaojing Zhang, Jingchao Xie, Jiaping Liu
    • Year: 2025
  7. Local characteristics and predictive models of the natural convective heat transfer coefficient for human body in standing and sitting postures

    • Authors: Jinyue Zhou, Xiaojing Zhang, Jingchao Xie, Xiaotong Liu, Jiaping Liu
    • Year: 2025
    • Citations: 1
  8. Heavy-duty vehicles dominate expressway tunnel environment analysis and emission factor determination

    • Authors: Dengkai Tu, Jingchao Xie, Henan Chai, Yansheng Zhi, Jiaping Liu
    • Year: 2025
  9. A new validated TRNSYS module for phase change material-filled multi-glazed windows

    • Authors: Xin Xu, Jingchao Xie, Xiaojing Zhang, Guang Chen, Jiaping Liu
    • Year: 2025
    • Citations: 1
  10. A hybrid load prediction method of office buildings based on physical simulation database and LightGBM algorithm

    • Authors: Huihui Lian, Ying Ji, Menghan Niu, Jingchao Xie, Jiaping Liu
    • Year: 2025
    • Citations: 2

 

Ding Yuan | Materials Science | Best Researcher Award

Prof. Ding Yuan | Materials Science | Best Researcher Award

Professor, at University of Shanghai for Science and Technology, China.

Dr. Ding Yuan is a distinguished researcher specializing in ultrathin two-dimensional (2D) materials for energy storage and conversion. She earned her Ph.D. from Griffith University in 2021 under the mentorship of Prof. Shanqing Zhang and Prof. Huijun Zhao. Following her doctorate, she conducted postdoctoral research at Griffith University and the University of Wollongong before joining the Shanghai University of Science and Technology in 2023 as a Specially Appointed Professor. Her research focuses on defect chemistry in ultrathin 2D materials, pioneering methods to enhance lithium/sodium-ion battery performance and electrocatalysis. She has published over 40 papers in high-impact journals, receiving more than 1,500 citations. Dr. Yuan has secured multiple national and provincial-level research grants, including the National Natural Science Foundation of China (NSFC) and Shanghai Leading Talent Award. Her contributions have been widely recognized, earning prestigious awards and extensive media coverage.

Professional Profile

🎓 Education

Dr. Ding Yuan has a strong academic foundation in chemistry and materials science. She earned her Bachelor’s (2014) and Master’s (2017) degrees in Chemical Engineering from Jiangsu University, where she researched photocatalytic degradation of pollutants. She pursued her Ph.D. (2018-2021) at Griffith University, Australia, focusing on atomic-level ultrathin materials for next-generation rechargeable batteries. Under the supervision of Prof. Shanqing Zhang and Prof. Huijun Zhao, she developed innovative synthesis methods for ultrathin transition metal oxides and chalcogenides, significantly enhancing their electrochemical performance. Her doctoral work laid the groundwork for her pioneering research on defect chemistry. She later expanded her expertise through postdoctoral research at Griffith University and the University of Wollongong, exploring electronic structure modulation of 2D materials for energy applications. In 2023, she joined Shanghai University of Science and Technology as a faculty member, furthering her research in energy storage and conversion.

💼 Experience

Dr. Ding Yuan’s career spans academia and research leadership. She is currently a Specially Appointed Professor at Shanghai University of Science and Technology, leading projects on ultrathin 2D energy materials. Before this, she held postdoctoral research positions at the University of Wollongong (2021-2023) and Griffith University (2021), focusing on electronic structure modulation of ultrathin materials for electrocatalysis and energy storage. Throughout her career, Dr. Yuan has spearheaded multiple research initiatives, collaborating with leading scholars such as Academicians Shi Dou and Huakun Liu. Her expertise in soft-template synthesis, self-assembly, and defect engineering has led to significant advancements in battery technology and electrocatalysis. She has also actively participated in national and international research collaborations, contributing to several high-impact research projects funded by organizations like the Australian Research Council and the National Natural Science Foundation of China.

🔬 Research Interests

Dr. Ding Yuan’s research focuses on the controlled synthesis and defect engineering of ultrathin 2D materials for energy applications. She explores atomic-level strategies, such as vacancy engineering, heterostructure construction, and element doping, to enhance the performance of materials in lithium/sodium-ion batteries, electrocatalysis, and hydrogen production. Her work aims to improve the energy density and power output of rechargeable batteries while optimizing catalytic activity and stability. She employs advanced techniques like self-assembly, soft-template methods, and topological transformations to fabricate high-performance materials. Dr. Yuan’s interdisciplinary approach integrates materials science, electrochemistry, and nanotechnology, driving innovations in renewable energy storage and conversion. Her research has gained significant recognition, contributing to the development of next-generation energy technologies with real-world applications in sustainable energy systems.

🏆 Awards

Dr. Ding Yuan has received numerous prestigious awards for her contributions to energy materials research. Notably, she was selected for the Young Talent Support Program by the China Association for Science and Technology (2023-2026), a highly competitive national-level recognition. She has also been awarded the National Natural Science Foundation Youth Grant (2025-2027) and the Shanghai Leading Talent (Overseas) Award (2023-2026), highlighting her impact in the field of materials science. Additionally, she received the Hujiang Leading Talent Award (2023-2026) from Shanghai University of Science and Technology. Her academic excellence has been recognized through university-level honors, including the Outstanding Union Activist Award (2024) and the Excellence in Teaching Assistant Award (2023). These accolades underscore her leadership in advancing nanomaterials for energy applications.

📖 Top Noted Publications

Dr. Ding Yuan has published over 40 peer-reviewed articles in top-tier journals, with more than 1,500 citations. Some of her most notable publications include:

  • Yuan, D., et al. (2023). “Defect Engineering in Ultrathin 2D Materials for Energy Storage.” Chemical Reviews. DOI | Cited by: 200+ articles.
  • Yuan, D., et al. (2022). “Heterostructure Engineering of Transition Metal Chalcogenides for High-Performance Batteries.” Advanced Materials. DOI | Cited by: 180+ articles.
  • Yuan, D., et al. (2021). “Atomically Thin 2D Transition Metal Oxides for Water Splitting.” Angewandte Chemie International Edition. DOI | Cited by: 160+ articles.
  • Yuan, D., et al. (2021). “Boosting Pseudocapacitive Behavior in Sodium-Ion Batteries with Vacancy-Engineered 2D Materials.” Cell Reports Physical Science. DOI | Cited by: 140+ articles.
  • Yuan, D., et al. (2020). “Soft-Template Synthesis of Ultrathin Layered Double Hydroxides for High-Performance Supercapacitors.” Chemical Engineering Journal. DOI | Cited by: 120+ articles.

Conclusion

Dr. Yuan Ding is highly suitable for the “Best Researcher Award.” Her strong research impact, prestigious funding, international collaborations, and leadership in 2D materials for energy applications make her a strong candidate. With continued industry collaboration and further leadership in global scientific communities, she has the potential to become a top-tier scientist in the energy materials field.

 

Yuhai Dou | Materials Science | Best Researcher Award

Prof. Dr. Yuhai Dou | Materials Science | Best Researcher Award

Vice President, at University of Shanghai for Science and Technology, China.

Dr. Yu Hai Dou is a Professor at Shanghai University of Science and Technology (USST), where he serves as the Executive Vice Dean of the Department of Hydrogen Energy and Fuel Cells. He is an expert in atomic-level ultra-thin two-dimensional new energy materials, focusing on hydrogen energy and fuel cells. With extensive experience in advanced materials science and nanotechnology, Dr. Dou has worked as a researcher and collaborator with renowned institutions like Griffith University and the University of Wollongong. His leadership and expertise have garnered numerous national and international awards, solidifying his place as a key figure in materials science research. He has contributed significantly to hydrogen production and energy storage solutions, aiming for sustainable energy advancements.

Professional Profile

Education 🎓

Dr. Dou completed his undergraduate and master’s studies in Materials Science and Engineering at Central South University, China, specializing in powder metallurgy. He then pursued his Ph.D. at the University of Wollongong, Australia, under the supervision of Academician Shih and Professor Ziqi Sun, where he focused on atomic-level ultra-thin two-dimensional materials for lithium/sodium-ion batteries and electrocatalysis for oxygen evolution. His academic journey continued with significant postdoctoral work at Griffith University, collaborating with Professor Huijun Zhao on innovative catalysts for hydrogen production and advanced energy storage technologies. His educational background has equipped him with a comprehensive understanding of energy materials and catalysis at the atomic scale.

Experience 💼

Dr. Dou’s professional career spans several prestigious institutions and research roles. As a Professor at USST, he is a driving force in the development of hydrogen energy and fuel cell technology. He has also been involved in cutting-edge research projects at Griffith University and the University of Wollongong, where he led pioneering work on atomic-level catalysts and energy-efficient materials. In addition, Dr. Dou has contributed to the development of several high-impact projects, including national and international collaborations on hydrogen energy and fuel cell advancements. His roles have also included serving as the Chair of the Materials Science Research Center and the Academic Committee at Shandong Advanced Technology Institute, China.

Research Interests 🔬

Dr. Dou’s research is centered on atomic-level ultra-thin two-dimensional materials, particularly in the areas of hydrogen energy, fuel cells, and energy storage. His work includes the development of efficient electrocatalysts for water splitting, hydrogen production, and advanced energy storage systems like sodium-ion batteries. Additionally, he is interested in designing innovative materials for renewable energy applications, including those used in fuel cells and energy conversion technologies. His pioneering work on single-atom catalysts and defect engineering has significantly advanced the field of materials science, making strides toward more sustainable energy solutions.

Awards 🏆

Dr. Dou’s career has been marked by numerous prestigious awards. He received the “Overseas Postdoctoral Talent Introduction Project” from the Ministry of Human Resources and Social Security in China, as well as several national-level recognitions such as the “Excellent Young Scientist” award from Australia and the “Taishan Scholar” award from Shandong Province. In 2020, his paper won the China Top Cited Paper Award, and he was also nominated for the World Advanced Materials Association Youth Scientist Gold Award. His accolades reflect his impact on both national and international levels, particularly in the field of materials science and energy research.

Top Noted Publications 📝

Dr. Dou has published extensively in high-impact journals on materials science, catalysis, and energy storage. His work includes groundbreaking research on atomic-level catalysts and ultra-thin two-dimensional materials. His publications have been cited in numerous international articles, showcasing his contributions to the advancement of hydrogen energy and catalysis. Some of his key papers include:

  • “Single-Atom Catalysts on Atomically Thin Nanomaterials for H₂O₂ Production” (2021, Nature Communications).
  • “Atomically Thin 3d Transition Metal Electrocatalysts for Water Splitting” (2020, Advanced Materials).
    For further exploration of his work, his published articles can be accessed via the journal links.

Conclusion

Dr. Yu Hai Dou exemplifies the qualities of a leading researcher in the realm of energy materials and sustainable technologies. His impressive list of awards, significant research funding, and collaborative work in high-impact projects make him an outstanding candidate for the Best Researcher Award. His contributions to hydrogen energy research and electrocatalysis are critical to advancing renewable energy technologies. With continued expansion into industry applications and fostering young talent, Dr. Dou can further amplify his already substantial impact on the scientific community and beyond.