Dr. Kai Xiong | Material | Best Researcher Award

Dr. Kai Xiong | Material | Best Researcher Award

Dr. Kai Xiong , Yunnan University , China.

Dr. Kai Xiong, Ph.D., is a Professor at Yunnan University and a Master Supervisor. A high-level introduced young talent in Yunnan Province and a core faculty member at Donglu, he specializes in multi-scale simulation and the design of rare and high-entropy materials. He has led major research projects, including one National Natural Science Foundation of China (NSFC) project and multiple provincial programs. With over 100 published papers, five software copyrights, and a textbook, he has significantly contributed to material science. His work bridges fundamental research with industrial applications, enhancing innovation in non-ferrous metal materials. ๐Ÿ”ฌ๐Ÿ“–

Publication Profile

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Education & Experience ๐ŸŽ“๐Ÿ”ฌ

  • Ph.D. in Materials Science, specialized in multi-scale simulation and material design ๐Ÿ—๏ธ
  • Professor, Yunnan University, mentoring master’s students and conducting advanced research ๐Ÿ“š
  • High-level Young Talent, recognized by Yunnan Province for academic excellence ๐Ÿ…
  • Young & Middle-Aged Backbone Teacher, contributing to scientific advancement at Yunnan University ๐Ÿ‘จโ€๐Ÿซ
  • Principal Investigator, leading multiple national and provincial research projects ๐Ÿ”ฌ
  • Industry Collaborations, working on enterprise-sponsored research for material innovation โš™๏ธ

Suitability Summmary

Dr. Kai Xiong, a distinguished Professor at Yunnan University, is an ideal candidate for the Best Researcher Award due to his exceptional contributions to material science and engineering. As a high-level introduced young talent in Yunnan Province and a key faculty member at Yunnan University, he has significantly advanced the field of multi-scale simulation and the design of rare and precious non-ferrous metals and high-entropy materials. His research has had a profound impact on the development of next-generation materials, contributing both theoretically and practically to the field.

Professional Development ๐Ÿš€

Dr. Kai Xiong has made remarkable strides in computational materials science, focusing on multi-scale simulation and the development of advanced non-ferrous and high-entropy materials. His expertise spans theoretical modeling and experimental validation, enabling breakthrough discoveries in material performance enhancement. He actively mentors students, contributes to industrial applications, and collaborates on national and provincial projects. His research has yielded patented innovations, software tools, and a specialized textbook. Through continuous learning and interdisciplinary collaboration, he pushes the boundaries of material science, bridging academia and industry to drive technological advancements in rare and precious metals. ๐Ÿ”๐Ÿ”ง๐Ÿ“˜

Research Focus ๐Ÿ”ฌ๐Ÿ’ก

Dr. Kai Xiong specializes in the multi-scale simulation and design of rare and precious non-ferrous metals and high-entropy materials. His work integrates computational modeling, experimental validation, and industrial applications to enhance material properties. Key areas include atomic-level material behavior analysis, nanostructured alloy development, and mechanical and thermal stability optimization. His research plays a vital role in advanced manufacturing, aerospace, and electronic applications, improving material efficiency and sustainability. With a strong foundation in applied physics, chemistry, and engineering, he contributes to cutting-edge advancements that redefine the future of materials science. ๐Ÿ—๏ธโšก๐Ÿ”

Awards & Honors ๐Ÿ†๐ŸŽ–๏ธ

  • High-Level Young Talent, Yunnan Province ๐Ÿ…
  • Young & Middle-Aged Backbone Teacher, Yunnan University ๐ŸŽ“
  • Principal Investigator of NSFC Project ๐Ÿ”ฌ
  • Leader of Yunnan Province Major Science & Technology Programs ๐Ÿš€
  • Published 100+ Research Papers in Prestigious Journals ๐Ÿ“–
  • Author of a Specialized Material Science Textbook ๐Ÿ“š
  • Holder of 5 Software Copyrights for Scientific Innovations ๐Ÿ’ป

Publication Top Notes

  • Machine learning inverse design of high-strength mid-temperature Ag-based solders

    • Journal: Materials & Design
    • Publication Date: April 2025
    • DOI: 10.1016/j.matdes.2025.113736
    • Contributors: Chengchen Jin, Kai Xiong, Yingwu Wang, Shunmeng Zhang, Yunyang Ye, Hui Fang, Aimin Zhang, Hua Dai, Yong Mao
  • Phase size induced anomalous plastic behavior in AuSn-Auโ‚…Sn duplex alloy

    • Journal: Materials Science and Engineering: A
    • Publication Date: March 2025
    • DOI: 10.1016/j.msea.2025.147911
    • Contributors: Rui Ma, Yingjie Sun, Hualong Ge, Wenyan Zhou, Haijun Wu, Lihua Ma, Shaoping Lu, Shunmeng Zhang, Zhiwei Xia, Kai Xiong, et al.
  • Highโ€throughput calculation integrated with stacking ensemble machine learning for predicting elastic properties of refractory multiโ€principal element alloys

    • Journal: Materials Genome Engineering Advances
    • Publication Date: March 12, 2025
    • DOI: 10.1002/mgea.70004
    • Contributors: Chengchen Jin, Kai Xiong, Congtao Luo, Hui Fang, Chaoguang Pu, Hua Dai, Aimin Zhang, Shunmeng Zhang, Yingwu Wang
  • Strength-ductility trade-off in NbTaTiV refractory multi-principal element alloys

    • Journal: Materials Science and Engineering: A
    • Publication Date: February 2025
    • DOI: 10.1016/j.msea.2024.147677
    • Contributors: Yingwu Wang, Kai Xiong, Lingjie Yang, Shunmeng Zhang, Hui Fang, Hua Dai, Chengchen Jin, Yunyang Ye, Congtao Luo, Junjie He, et al.
  • Hf-induced strengthening and lattice distortion in HfNbTaTiV refractory multi-principal element alloys

    • Journal: Journal of Materials Research and Technology
    • Publication Date: January 2025
    • DOI: 10.1016/j.jmrt.2024.12.256
    • Contributors: Yingwu Wang, Kai Xiong, Wei Li, Chengchen Jin, Haijun Wu, Hua Dai, Zihang Yang, Hongmo Yang, Shunmeng Zhang

 

Qiyao Yu | Materials | Best Researcher Award

Qiyao Yu | Materials | Best Researcher Award

Prof. Qiyao Yu, Beijing Institute of Technology, China.

Dr. Qiyao Yu is an Associate Professor and doctoral supervisor at the School of Mechanical and Electrical Engineering, Beijing Institute of Technology. She holds a Ph.D. in Chemical Engineering and Technology from Harbin Institute of Technology and completed her postdoctoral research at Beijing Institute of Technology. Her expertise lies in energy storage materials, particularly sodium/potassium-ion batteries. With over 60 SCI papers, 20+ patents, and leadership in multiple national projects, she is a recognized figure in her field. She also serves as an editorial board member for Battery Materials and a reviewer for the National Natural Science Foundation of China. โšก๐Ÿ“š

Publication Profiles

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Education & Experienceย ๐ŸŽ“๐Ÿ’ผ

  • Bachelor of Chemistry (2008-2012) โ€“ Beijing Institute of Technology ๐ŸŽ“
  • Master of Chemical Engineering (2012-2014) โ€“ Beijing Institute of Technology ๐Ÿ›
  • Ph.D. in Chemical Engineering & Technology (2014-2018) โ€“ Harbin Institute of Technology ๐Ÿ”ฌ
  • Postdoctoral Fellow (2018-2020) โ€“ Beijing Institute of Technology ๐Ÿ—
  • Associate Professor & Doctoral Supervisor (2020-Present) โ€“ Beijing Institute of Technology ๐Ÿ“–

Summary Suitability

Dr. Qiyao Yu is an esteemed Associate Professor at the Beijing Institute of Technology, specializing in electrochemical analysis, nanomaterial synthesis, and energy storage systems. Holding a Ph.D. from Harbin Institute of Technology, Dr. Yu has made groundbreaking contributions to alkali-ion battery research, playing a pivotal role in advancing energy materials and battery technology. Her work has bridged theoretical insights with experimental validation, contributing to the development of high-performance and sustainable energy solutions. Her pioneering research and commitment to innovation make her an ideal candidate for the Best Researcher Award.

Professional Developmentย  ๐Ÿ“š๐Ÿ”

Dr. Qiyao Yu has significantly contributed to the field of energy storage and chemical engineering. She has authored 60+ SCI papers, including 44 as first/corresponding author, with 22 papers having an impact factor greater than 10. She has led 10 national projects, obtained over 20 patents, and actively contributes as an editorial board member for Battery Materials. Her research delves into the design of advanced battery materials, focusing on sodium/potassium-ion storage. Dr. Yu also plays a vital role in teaching, textbook compilation, and knowledge graph development for chemistry and energy storage courses, ensuring the next generation of researchers thrives. ๐Ÿ”‹๐Ÿงช

Research Focus

Dr. Qiyao Yu’s research primarily revolves around next-generation energy storage systems, particularly sodium-ion and potassium-ion batteries. Her work emphasizes developing high-performance electrode materials, electrolyte engineering, and interfacial chemistry to enhance battery stability and efficiency. By integrating metal-organic frameworks, carbon nanostructures, and polyanionic compounds, her research aims to revolutionize commercial sustainable energy storage solutions. Her pioneering studies on ion migration, cathode/anode materials, and electrolyte interfaces contribute significantly to battery advancements. Her focus on scalability and real-world applications positions her as a key innovator in the future of renewable energy technologies. ๐Ÿ”‹๐Ÿ”„๐ŸŒฑ

Awards & Honors ๐Ÿ†๐ŸŽ–

  • Beijing Quality Course (Key) โ€“ Fundamentals of Organic Materials Chemistry (2021) ๐Ÿ†
  • Ministry of Industry and Information Technology Planning Textbook โ€“ Fundamentals of Organic Chemistry of Energetic Materials (2021) ๐Ÿ“š
  • Ministry of Education Teaching Reform Projects โ€“ Knowledge Graph for Organic Chemistry & Weapons Courses (2023) ๐Ÿ›
  • Leader of 10+ National Projects, including the National Natural Science Foundation of China ๐ŸŽฏ
  • Editorial Board Member โ€“ Battery Materials ๐Ÿ“ฐ

Publications Top Noted

  • Bambooโ€Like Hollow Tubes with MoSโ‚‚/Nโ€Dopedโ€C Interfaces Boost Potassiumโ€Ion Storage ๐Ÿ“ก | Cited by: 283 | Year: 2018
  • Metallic Octahedral CoSeโ‚‚ Threaded by Nโ€Doped Carbon Nanotubes: A Flexible Framework for Highโ€Performance Potassiumโ€Ion Batteries ๐Ÿ”‹ | Cited by: 230 | Year: 2018
  • Amorphous Carbon/Graphite Coupled Polyhedral Microframe with Fast Electronic Channel and Enhanced Ion Storage for Potassium-Ion Batteries โšก | Cited by: 112 | Year: 2021
  • N-Doped Carbon/Ultrathin 2D Metallic Cobalt Selenide Core/Sheath Flexible Framework Bridged by Chemical Bonds for High-Performance Potassium Storage ๐Ÿ”ฌ | Cited by: 105 | Year: 2020
  • High-Throughput Fabrication of 3D N-Doped Graphenic Framework Coupled with Feโ‚ƒC@Porous Graphite Carbon for Ultrastable Potassium Ion Storage ๐Ÿ—๏ธ | Cited by: 103 | Year: 2019
  • Unraveling the Intercorrelation Between Micro/Mesopores and K Migration Behavior in Hard Carbon ๐Ÿงฉ | Cited by: 92 | Year: 2022
  • Copper Oxide Nanoleaves Decorated Multi-Walled Carbon Nanotube as Platform for Glucose Sensing ๐Ÿƒ | Cited by: 87 | Year: 2012
  • The Multi-Yolk/Shell Structure of FeP@Foam-Like Graphenic Scaffolds: Strong Pโ€“C Bonds and Electrolyte- and Binder-Optimization Boost Potassium Storage ๐Ÿ”„ | Cited by: 86 | Year: 2019