Assistant Researcher from Beijing University of Technology, China
Dr. Yan Li is an accomplished researcher in the field of energy materials, currently serving as an Assistant Researcher at Beijing University of Technology. With a strong academic background and postdoctoral training at one of China’s most prestigious universities, he has developed expertise in designing and synthesizing advanced cathode materials for both lithium-ion and sodium-ion batteries. His work focuses on improving battery performance, safety, and understanding degradation mechanisms through cutting-edge in situ and operando transmission electron microscopy (TEM) techniques. Dr. Li’s contribution lies not only in material synthesis but also in developing novel characterization methods to address the fundamental scientific challenges related to energy storage systems. His multidisciplinary approach combines materials science, electrochemistry, and electron microscopy to explore next-generation battery technologies. Dr. Li is emerging as a strong presence in the research community, known for his technical depth, innovative thinking, and commitment to solving real-world energy problems. His current research aims to enhance the reliability and lifespan of battery systems, which are crucial for applications in electric vehicles, portable electronics, and grid storage. Dr. Yan Li continues to make substantial contributions to the scientific community and has the potential to influence global advancements in sustainable energy technologies.
Professional Profile
Education
Dr. Yan Li obtained his Doctor of Philosophy (Ph.D.) degree in 2016 from Nanjing Tech University, Nanjing, China, where he specialized in the field of materials science and engineering with a particular emphasis on electrochemical energy storage systems. His academic journey began with a solid foundation in chemistry and material science, which later evolved into specialized research in battery technologies. During his Ph.D. studies, Dr. Li gained rigorous training in materials synthesis, electrochemical analysis, and structural characterization, setting the groundwork for his future innovations in energy storage. His doctoral thesis likely explored aspects of material behavior under electrochemical conditions, especially within battery systems. His academic excellence and research potential were evident early on, leading to postdoctoral opportunities at leading institutions. Dr. Li’s commitment to academic rigor and continuous learning has enabled him to stay at the forefront of energy research. The comprehensive nature of his education has played a critical role in shaping his ability to address complex challenges in the development of high-performance and safe battery materials, making him a valuable asset in both academic and industrial research environments.
Professional Experience
Dr. Yan Li is currently employed as an Assistant Researcher at Beijing University of Technology, where he is actively involved in energy materials research. Before his current role, he worked as a Postdoctoral Researcher in the Automotive Department at Tsinghua University, one of China’s top-tier institutions. During his postdoctoral tenure, he contributed to projects that explored the performance and safety of batteries in vehicular applications, particularly electric vehicles. His responsibilities included not only experimental research but also data analysis, project planning, and collaboration with cross-disciplinary teams. These roles provided him with invaluable experience in applying academic research to real-world industrial needs. At Beijing University of Technology, Dr. Li continues to expand his research on lithium-ion and sodium-ion battery technologies. His professional work integrates both fundamental research and applied science, offering insights into battery degradation, safety, and longevity. This professional journey underscores his ability to contribute to high-impact research projects while also nurturing the skills required for academic leadership and innovation. Through these experiences, Dr. Li has built a strong foundation for further academic achievements and collaborative ventures in the global energy research community.
Research Interest
Dr. Yan Li’s research interests lie at the intersection of materials science, electrochemistry, and energy storage systems. He is particularly focused on the design, synthesis, and optimization of cathode materials for lithium-ion and sodium-ion batteries. These energy storage technologies are pivotal for the future of electric vehicles, renewable energy integration, and portable electronic devices. His research explores new material chemistries that offer higher energy density, better thermal stability, and longer cycle life. One of the most distinctive aspects of Dr. Li’s work is his application of in situ and operando transmission electron microscopy (TEM) to study the real-time structural and chemical changes occurring in battery materials during operation. This technique allows for the direct observation of degradation mechanisms, providing critical insights that can lead to safer and more durable battery systems. Additionally, Dr. Li is interested in exploring environmentally friendly and cost-effective alternatives to conventional battery materials. His multidisciplinary approach and continuous pursuit of innovation highlight his dedication to solving pressing energy challenges and advancing battery technology for broader societal impact.
Research Skills
Dr. Yan Li possesses a diverse and robust set of research skills that make him a leading expert in the field of energy storage materials. His core competencies include advanced materials synthesis, especially in the development of cathode materials for lithium-ion and sodium-ion batteries. He is proficient in a wide array of characterization techniques, with specialized expertise in in situ and operando transmission electron microscopy (TEM), which allows him to analyze material transformations and degradation processes in real-time during battery operation. His skills also encompass electrochemical testing, such as cyclic voltammetry, galvanostatic charge/discharge measurements, and impedance spectroscopy, which are essential for evaluating the performance of battery materials. Dr. Li has hands-on experience with battery fabrication techniques, including electrode preparation, coin-cell assembly, and safety testing protocols. Additionally, he is skilled in data analysis, scientific writing, and project management, making him capable of leading and executing comprehensive research projects. His ability to integrate theoretical knowledge with experimental practice enables him to develop innovative solutions in the realm of energy storage, ensuring both academic excellence and industrial relevance.
Awards and Honors
While specific awards and honors received by Dr. Yan Li have not been publicly listed, his academic and professional trajectory suggests a strong record of recognition and merit. Being selected for a postdoctoral position at Tsinghua University, a globally recognized institution, is itself an indicator of high academic standing and research potential. His current appointment as an Assistant Researcher at Beijing University of Technology also reflects his capabilities and the trust placed in him by academic peers and senior faculty. It is likely that he has received institutional and project-based acknowledgments for his work on battery materials and electrochemical analysis. Furthermore, Dr. Li’s contributions to cutting-edge topics such as in situ characterization and energy storage mechanisms may have positioned him to receive future recognitions in the form of research grants, invitations to conferences, and publication awards. As his research output grows and gains visibility, he is well-positioned to earn national and international honors that further validate his contributions to the field of materials science and energy technology.
Conclusion
Dr. Yan Li is a promising and capable researcher with a strong academic foundation, diverse professional experience, and clear research focus in the field of advanced energy storage systems. His work on lithium-ion and sodium-ion battery cathode materials, combined with his innovative application of in situ and operando TEM, places him at the forefront of modern materials research. Dr. Li exhibits a balanced skill set that includes experimental technique, critical analysis, and interdisciplinary collaboration. While he is still in the early stages of his independent research career, his track record shows a consistent trajectory of growth and excellence. To further strengthen his global research profile, increased publication in high-impact journals, active international collaboration, and participation in global energy forums will be advantageous. Overall, Dr. Yan Li is highly suitable for recognition through a Best Researcher Award. His work not only contributes to academic knowledge but also addresses critical challenges in sustainable energy storage, making his research impactful both scientifically and societally. He represents the next generation of materials scientists capable of driving innovation in the energy sector.
Publication Top Notes
1. Removal of residual contaminants by minute-level washing facilitates the direct regeneration of spent cathodes from retired EV Li-ion batteries
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Authors: Guo, Yi; Li, Yang; Qiu, Kai; Li, Yan; Yuan, Weijing; Li, Chenxi; Rui, Xinyu; Shi, Lewei; Hou, Yukun; Liu, Saiyue et al.
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Year: 2025
2. Cryo-Sampling Enables Precise Evaluation of Thermal Stability of a Ni-Rich Layered Cathode
3. Cross-scale deciphering thermal failure process of Ni-rich layered cathode
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Authors: Ding, Yang; Li, Yan; Xu, Ruoyu; Han, Xiao; Huang, Kai; Ke, Xiaoxing; Wang, Bo; Sui, Manling; Yan, Pengfei
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Year: 2024
4. Early-stage latent thermal failure of single-crystal Ni-rich layered cathode
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Authors: Han, Xiao; Xu, Ruoyu; Li, Yan; Ding, Yang; Zhang, Manchen; Wang, Bo; Ke, Xiaoxing; Sui, Manling; Yan, Pengfei
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Year: 2024
5. Selective core-shell doping enabling high performance 4.6 V-LiCoO₂
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Authors: Xia, Yueming; Feng, Jianrui; Li, Jinhui; Li, Yan; Zhang, Zhengfeng; Wang, Xiaoqi; Shao, Jianli; Sui, Manling; Yan, Pengfei
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Year: 2024
6. Toward a high-voltage practical lithium ion batteries with ultraconformal interphases and enhanced battery safety
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Authors: Li, Yan; Li, Jinhui; Ding, Yang; Feng, Xuning; Liu, Xiang; Yan, Pengfei; Sui, Manling; Ouyang, Minggao
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Year: 2024
7. Advanced characterization guiding rational design of regeneration protocol for spent-LiCoO₂
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Authors: Mu, Xulin; Huang, Kai; Zhu, Genxiang; Li, Yan; Liu, Conghui; Hui, Xiaojuan; Sui, Manling; Yan, Pengfei
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Year: 2023
8. Mitigating Twin Boundary-Induced Cracking for Enhanced Cycling Stability of Layered Cathodes
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Authors: Mu, Xulin; Hui, Xiaojuan; Wang, Mingming; Wang, Kuan; Li, Yan; Zhang, Yuefei; Sui, Manling; Yan, Pengfei
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Year: 2023
9. Development of cathode-electrolyte-interphase for safer lithium batteries
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Authors: Wu, Yu; Liu, Xiang; Wang, Li; Feng, Xuning; Ren, Dongsheng; Li, Yan; Rui, Xinyu; Wang, Yan; Han, Xuebing; Xu, Gui-Liang et al.
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Year: 2021
10. Unlocking the self-supported thermal runaway of high-energy lithium-ion batteries
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Authors: Hou, Junxian; Feng, Xuning; Wang, Li; Liu, Xiang; Ohma, Atsushi; Lu, Languang; Ren, Dongsheng; Huang, Wensheng; Li, Yan; Yi, Mengchao et al.
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Year: 2021