Dr. Shiyu Li | Energy | Henan University

Assistant Professor at Henan University, China

Dr. Shiyu Li is an Assistant Professor at Henan University with a robust research background in advanced materials for secondary batteries. After earning a Ph.D. from Soochow University in 2020, Dr. Li has been at the forefront of innovation in energy storage, specifically focusing on polyanionic-type cathode materials for sodium-ion batteries. His groundbreaking research on sodium iron sulfate led to authorized patents and commercial success, with the material entering large-scale industrial application. Passionate about practical science and sustainability, Dr. Li combines academic excellence with industry impact. A member of the Chinese Chemical Society, he has authored over 15 journal articles and holds six patents. His work not only contributes to academic literature but also empowers green energy solutions through technological advancements in battery storage. Dr. Li’s vision is rooted in innovation, collaboration, and the real-world implementation of cutting-edge battery materials.

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Education

Dr. Shiyu Li received his Ph.D. in 2020 from Soochow University, one of China’s premier institutions for materials science and engineering. His doctoral research focused on high-performance electrode materials, with a specific emphasis on polyanionic-type cathodes for sodium-ion batteries. His thesis addressed critical challenges in energy density and stability of sodium iron sulfate cathode materials, a breakthrough that contributed directly to industrial applications. Prior to his Ph.D., Dr. Li earned his undergraduate and master’s degrees in related chemistry and materials engineering fields, laying a solid interdisciplinary foundation for his later research. His educational journey was marked by excellence in lab-based experimentation, interdisciplinary project work, and a growing passion for innovation in clean energy technologies. Throughout his academic path, he demonstrated early aptitude in electrochemistry and synthesis of functional materials, which has carried into his professional and academic career as a young leader in battery research.

work Experience

Currently serving as an Assistant Professor at Henan University, Dr. Shiyu Li has rapidly established himself as a significant contributor in the field of materials chemistry and electrochemical energy storage. Since completing his doctorate in 2020, he has led multiple research projects focusing on polyanionic sodium-ion battery materials. His expertise spans from fundamental material synthesis to industrial-scale battery development. One of his most notable professional achievements includes the industrial commercialization of a sodium iron sulfate cathode material—an outcome of his doctoral research, which also resulted in six patents. In addition to academic work, he has contributed to one consultancy project involving real-world application of battery technologies. Though early in his career, Dr. Li’s experience reflects a rare blend of academic precision and entrepreneurial initiative. His growing academic reputation is supported by over 15 scientific publications, and his work continues to influence both scholarly discourse and industrial battery solutions.

Research Focus

Dr. Shiyu Li’s research is centered on high-performance secondary battery electrode materials, with an emphasis on polyanionic cathode materials for sodium-ion batteries. His work addresses the global need for sustainable and cost-effective energy storage solutions by focusing on alternatives to lithium-based technologies. A key area of innovation includes the structural design, synthesis, and performance optimization of sodium iron sulfate materials. His research bridges the gap between theoretical chemistry and industrial applicability, offering materials that demonstrate enhanced energy density, cycle stability, and scalability. He also explores electrochemical mechanisms and ion transport behavior within battery architectures. By integrating nanotechnology and materials chemistry, Dr. Li seeks to develop next-generation battery systems that are both environmentally and economically viable. His mission is to accelerate the transition toward cleaner energy through innovation in battery science, enabling breakthroughs that can power electric mobility, grid storage, and future green technologies.

Awards and honors

Dr. Shiyu Li has emerged as a promising talent in materials science and energy innovation, earning significant recognition in his early academic career. His patented work on sodium iron sulfate cathode materials has not only gained national recognition but also led to the founding of a startup, reflecting a strong track record of transforming research into practical outcomes. His contribution to secondary battery development has placed him in the spotlight for awards such as the Best Researcher Award, for which he is currently nominated. His innovations have been acknowledged by research institutions and industrial partners alike, particularly for their role in enabling sustainable energy storage solutions. In addition to being a member of the Chinese Chemical Society, Dr. Li’s work continues to attract citations, collaboration requests, and academic invitations. His commitment to applied science and green technology positions him as a thought leader and innovator in battery research.

Conclusion

Dr. Shiyu Li is highly suitable for the Best Researcher Award, especially considering the translation of his academic innovations into industrial applications—a rare and valuable achievement. His patent-driven research exemplifies the essence of impactful science: bridging the lab and the marketplace. While there remains room for growth in international collaborations and academic leadership roles, his current achievements, particularly in sodium-ion battery technology, position him as a strong contender for this award.

Publications to Noted

📘 A nanoarchitectured Na₆Fe₅(SO₄)₈/CNTs cathode for building a low-cost 3.6 V sodium-ion full battery with superior sodium storage
Authors: S. Li, X. Song, X. Kuai, W. Zhu, K. Tian, X. Li, M. Chen, S. Chou, J. Zhao, L. Gao
Journal: Journal of Materials Chemistry A, 7(24), 14656–14669
Citations: 96
Year: 2019

🔬 Enhancing the structure stability of Ni-rich LiNi₀.₆Co₀.₂Mn₀.₂O₂ cathode via encapsulating in negative thermal expansion nanocrystalline shell
Authors: K. Du, A. Gao, L. Gao, S. Sun, X. Lu, C. Yu, S. Li, H. Zhao, Y. Bai
Journal: Nano Energy, 83, 105775
Citations: 73
Year: 2021

⚛️ Rational design of Sn/SnO₂/porous carbon nanocomposites as anode materials for sodium-ion batteries
Authors: X. Li, X. Li, L. Fan, Z. Yu, B. Yan, D. Xiong, X. Song, S. Li, K.R. Adair, D. Li, X. Sun
Journal: Applied Surface Science, 412, 170–176
Citations: 65
Year: 2017

🔋 Superior sodium storage of vanadium pentoxide cathode with controllable interlamellar spacing
Authors: S. Li, X. Li, Y. Li, B. Yan, X. Song, D. Li
Journal: Electrochimica Acta, 244, 77–85
Citations: 42
Year: 2017

⚡ Overcoming the rate-determining kinetics of the Na₃V₂O₂(PO₄)₂F cathode for ultrafast sodium storage by heterostructured dual-carbon decoration
Authors: X. Li, S. Jiang, S. Li, J. Yao, Y. Zhao, T. Bashir, S. Zhou, S. Yang, W. Li, W. Zhu, et al.
Journal: Journal of Materials Chemistry A, 9(19), 11827–11838
Citations: 40
Year: 2021

🧪 A lattice-matched interface between in situ/artificial SEIs inhibiting SEI decomposition for enhanced lithium storage
Authors: X. Song, S. Li, X. Li, Y. Zhang, X. Wang, Z. Bai, H.M.K. Sari, Y. Zhao, J. Zhang
Journal: Journal of Materials Chemistry A, 8(22), 11165–11176
Citations: 32
Year: 2020

🔄 Design of V₂O₅·xH₂O cathode for highly enhancing sodium storage
Authors: S. Li, X. Li, Y. Li, B. Yan, X. Song, L. Fan, H. Shan, D. Li
Journal: Journal of Alloys and Compounds, 722, 278–286
Citations: 31
Year: 2017

🧬 Double-pinning effect assisting Na₄VMn(PO₄)₃ with superior structural and electrochemical stabilization for sodium-ion batteries
Authors: J. Zhao, W. Yan, S. Li, S. Li, W.H. Wang, Y. Bai
Journal: Nano Energy, 119, 109002
Citations: 27
Year: 2024

🧩 High-lattice-adapted surface modifying Na₄MnV(PO₄)₃ for better sodium storage
Authors: C. Song, S. Li, Y. Bai
Journal: Nano Research, 17(4), 2728–2735
Citations: 17
Year: 2024

🔧 Optimized ALD-derived MgO coating layers enhancing silicon anode performance for lithium ion batteries
Authors: X. Tai, X. Li, A. Kakimov, S. Li, W. Liu, J. Li, J. Xu, D. Li, X. Sun
Journal: Journal of Materials Research, 34(14), 2425–2434
Citations: 15
Year: 2019

Mr. Samuel Ogundahunsi | Energy Systems Engineering | Best Researcher Award

Graduate Student at Memorial University of Newfoudland , Canada

Samuel Ogundahunsi is an accomplished Senior Mechanical Piping Engineer with over 15 years of diverse experience in the oil and gas industry. Specializing in the design, development, and implementation of piping systems, he has been instrumental in projects involving offshore and onshore facilities, FPSO, and wellhead platforms. Samuel has a proven track record of using cutting-edge software like PDS, PDMS, and Aveva E3D for detailed engineering and design. With expertise in project management, including the administration of AVEVA E3D for 22 seats, his contributions have led to significant reductions in design errors and enhanced material efficiency. Samuel actively supports safety measures and operational reliability through his involvement in HAZOP and HAZID reviews, ensuring safe and efficient designs.

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Education

Samuel Ogundahunsi holds a diverse educational background with a focus on engineering and business management. He earned his Master’s of Applied Science in Energy System Engineering from Memorial University in Newfoundland, Canada, in 2024. Prior to that, he completed his Master’s in Business Administration in Engineering Management from the International University of Applied Science, Buchdorf, Germany, in 2022. Samuel also holds a Bachelor’s degree in Mechanical Engineering from the University of Ilorin in Nigeria, which he completed in 2006. His education provides a solid foundation in both technical and managerial aspects, positioning him as an expert in mechanical and piping systems design in the oil and gas industry. Additionally, Samuel has undergone several industry certifications, including Safety Tickets in First Aid, CPR, AED, BOSIET, and HUET, further enhancing his credentials for managing complex engineering projects.

work Experience

Samuel Ogundahunsi has over 15 years of experience in the oil and gas industry, with a specialized focus on mechanical piping engineering. He has worked with leading companies such as Chevron Nigeria Limited, ExxonMobil Nigeria, Fluor Corporation, and Worley, contributing to multiple offshore and onshore projects. Samuel’s expertise includes detailed design and layout of piping systems, pipe stress analysis, material take-off, and as-built drawing preparation. He has extensive experience in Front-End Engineering Design (FEED), Detailed Engineering, and EPC projects for offshore and FPSO platforms. Samuel is proficient in using design software like Aveva E3D, Bentley, and AutoCAD, which allows him to streamline the design and fabrication processes, reduce material waste, and ensure accuracy. Notably, his leadership in the integration of point cloud models into 3D software has optimized system efficiency. Samuel is committed to safety and has a strong background in HAZOP and HAZID reviews.

Awards and Honors

Throughout his career, Samuel Ogundahunsi has received numerous accolades for his exemplary contributions to the oil and gas industry. His efforts in optimizing piping designs for Chevron Nigeria’s FPSO and ExxonMobil Nigeria led to significant reductions in design errors and improvements in cost-efficiency. Samuel’s leadership in the integration of AVEVA E3D 2.1 project administration support has been recognized, significantly improving project delivery timelines. He was commended for his active role in enhancing safety measures through rigorous HAZOP and HAZID reviews, contributing to the successful execution of high-risk projects. In addition to industry recognition, Samuel has been awarded multiple safety and technical certifications, including First Aid, CPR & AED, BOSIET, and HUET. His dedication to continuous learning is reflected in his commitment to certifications and training, such as the Offshore Layout Training with Saipem. These honors showcase Samuel’s influence on engineering excellence and safety in the oil and gas sector.

Research Focus

Samuel Ogundahunsi’s research focus is primarily centered around the optimization of mechanical piping systems in offshore and onshore oil and gas facilities. His work aims to improve the efficiency, reliability, and safety of piping designs through innovative techniques and the application of advanced engineering software. Samuel has a particular interest in integrating 3D modeling technologies, such as Aveva E3D, with real-time data from point cloud models, enabling more accurate system designs and reducing errors during construction. He has also contributed to research on the integration of piping layouts with other systems, including structural and electrical components, to enhance overall project performance. In his work, Samuel emphasizes the importance of adhering to global industry standards, including ASME and API codes, and has actively participated in the development of new specifications to improve project outcomes. His research has led to improvements in the efficiency and sustainability of piping systems in complex projects.

Skills

Samuel Ogundahunsi possesses a diverse skill set that blends technical engineering expertise with project management and safety oversight. He is highly skilled in the design and analysis of mechanical piping systems, with proficiency in using software such as Aveva E3D, PDS, PDMS, AutoCAD, and Bentley for 3D modeling and layout design. Samuel is adept at flexibility analysis, isometric drawing preparation, and piping material take-offs. His project management skills include leading the design and implementation of offshore and onshore oil and gas projects, ensuring that they are completed on time, within budget, and with the highest standards of safety. Samuel has a strong background in risk management, actively participating in HAZOP and HAZID reviews to ensure safety across all stages of a project. Additionally, his expertise in integrating safety procedures, coupled with his experience in mechanical start-up and commissioning, enables him to drive operational efficiency and maintain safety standards.

Conclusion

Samuel Ogunadhunsi’s extensive career, technical prowess, and leadership in challenging projects make him an excellent candidate for the Best Researcher Award. His contributions to mechanical piping design and engineering, coupled with a commitment to improving project outcomes and efficiency, demonstrate a strong alignment with the values of research excellence. Further expansion into sustainable and energy-efficient technologies will undoubtedly strengthen his role as an industry innovator.

Publications to Noted

Design and Optimization of the Heatsink of a Level 1 Electric Vehicle Charger

IE Ebere, AA Khan, S Ogundahunsi, E Ugwuemeaju, UA Khan, S Ahmed

Energies 18 (1), 180

2025

Shiyu Li | Energy | Henan University

Dr. Shiyu Li | Energy | Henan University

professional profile

Education

work Experience

Research Focus

Awards and honors

Conclusion

Publications to Noted

Samuel Ogundahunsi | Energy Systems Engineering | Best Researcher Award

Mr. Samuel Ogundahunsi | Energy Systems Engineering | Best Researcher Award

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Dr. Shiyu Li | Energy | Henan University

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Mr. Samuel Ogundahunsi | Energy Systems Engineering | Best Researcher Award

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