Dr. Yige Zhao is an accomplished Associate Professor at the School of Materials Science and Engineering, Zhengzhou University, with a research focus on advanced energy materials and devices. Her work spans the development of innovative solutions in hydrogen energy, electrocatalysis, and next-generation energy storage systems such as metal-air and lithium-sulfur batteries. With a strong educational foundation from Beijing University of Chemical Technology and rich professional experience in academia, Dr. Zhao has established herself as a leading expert in clean energy research. She has been at the forefront of several major research initiatives, including national and provincial-level projects, and maintains active collaborations with industry partners to ensure practical application of her work. In addition to her robust research profile, Dr. Zhao is a dedicated educator, delivering core undergraduate and innovation-based courses and mentoring graduate students. She has contributed significantly to academic literature with publications in high-impact journals and holds patents on novel electrocatalysts. Recognized for her excellence in both research and teaching, Dr. Zhao has received multiple honors and awards at the university and provincial levels. Her contributions are shaping the future of sustainable energy technologies in China and beyond, demonstrating her commitment to scientific innovation, education, and real-world impact.
Professional Profile
Education
Dr. Yige Zhao’s academic journey began at Beijing University of Chemical Technology, where she earned both her bachelor’s and doctoral degrees in Materials Science and Engineering. From 2009 to 2013, she pursued her undergraduate studies, laying a strong foundation in material chemistry, polymer science, and electrochemical systems. Following her bachelor’s degree, she continued her education at the same institution, completing her Ph.D. in 2018. During her doctoral research, she delved deeply into the synthesis and characterization of energy-related materials, with a specific focus on their application in sustainable technologies such as fuel cells and water-splitting devices. Her rigorous academic training equipped her with comprehensive knowledge in materials processing, advanced characterization techniques, and catalytic mechanisms. The Ph.D. experience also fostered her ability to independently manage research projects and collaborate across disciplines. Her formal education, combined with hands-on lab experience and participation in national-level projects during her doctoral studies, has been crucial in shaping her future career in academia and research. The excellence of her academic record not only underscores her technical competence but also reflects her persistent dedication to addressing global energy challenges through scientific innovation.
Professional Experience
Since July 2018, Dr. Yige Zhao has been affiliated with Zhengzhou University’s School of Materials Science and Engineering, initially joining as a lecturer and subsequently promoted to the role of Associate Professor. Her professional experience in this capacity has been defined by her leadership in academic instruction, research innovation, and student mentorship. She has played a pivotal role in developing and teaching core undergraduate courses such as Electrochemistry, New Energy Device Innovation Practice, and Innovation and Entrepreneurship Training. These courses are aligned with her research specializations and have been instrumental in preparing students for careers in clean energy technologies. In addition to her teaching duties, Dr. Zhao has successfully led several funded research projects sponsored by the National Natural Science Foundation of China, Henan Provincial Science and Technology Department, and other institutional platforms. Her involvement with industrial projects through horizontal enterprise collaborations further reflects her practical orientation and commitment to technology transfer. She also supervises graduate research through the National Joint Research Center for Low-Carbon Environmental Protection Materials. With an emphasis on collaborative innovation, Dr. Zhao’s professional journey demonstrates a balanced blend of theoretical knowledge and application-driven research, marking her as a dynamic contributor to China’s sustainable energy ambitions.
Research Interest
Dr. Zhao’s research interests are centered around the synthesis, modification, and application of advanced materials for clean energy conversion and storage. Her work addresses critical challenges in hydrogen energy production, storage, and utilization, as well as the development of efficient electrocatalysts for oxygen evolution and reduction reactions. She has a particular interest in the design of bifunctional materials that enable high-performance metal-air batteries and overall water splitting devices. Dr. Zhao’s investigations extend to lithium-sulfur and zinc-air battery systems, aiming to enhance their stability, conductivity, and charge-discharge efficiency through nanostructuring and surface engineering. She is especially adept at designing carbon-based nanomaterials doped with transition metals and heteroatoms to boost electrocatalytic activity. Her work also involves in situ characterization techniques to explore the underlying mechanisms of energy storage reactions. These multidisciplinary efforts integrate chemistry, materials science, and environmental engineering to create novel solutions for next-generation energy needs. Dr. Zhao’s long-term goal is to contribute to the global transition to low-carbon technologies by developing scalable and cost-effective materials that support sustainable energy systems. Her research is both fundamental and applied, providing innovative directions in material design for clean energy technologies.
Research Skills
Dr. Yige Zhao possesses an advanced skill set in both experimental and analytical aspects of materials research, particularly in the field of electrocatalysis and energy storage devices. Her expertise includes the synthesis of nanostructured materials such as doped carbon nanofibers, porous carbon matrices, and hybrid composites with metal-based active sites. She is highly proficient in techniques like electrospinning, chemical vapor deposition, and hydrothermal synthesis. Dr. Zhao also brings deep experience in utilizing high-end characterization tools such as X-ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM), scanning electron microscopy (SEM), and in situ electrochemical methods to probe catalytic mechanisms. She is skilled in electrochemical testing techniques, including cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and linear sweep voltammetry (LSV), crucial for evaluating electrocatalyst performance. Additionally, she has a demonstrated ability to design experimental systems for full-cell battery evaluation, including zinc-air and lithium-sulfur batteries. Dr. Zhao’s interdisciplinary skills enable her to bridge material design with device integration, allowing a holistic approach to innovation in energy technologies. Her ability to conduct mechanistic studies, coupled with process optimization and scale-up, reflects a rare blend of theoretical insight and practical implementation capacity.
Awards and Honors
Dr. Yige Zhao has received numerous accolades recognizing her contributions to scientific research and education. Among the most prestigious is the Henan Provincial Department of Education Science and Technology Achievement Award, which highlights the significance of her innovations in energy materials. She was also awarded the First Prize for Excellent Scientific Papers by the same department, reflecting the high academic quality and impact of her publications. Her role as a Mentor for the National Innovation and Entrepreneurship Training Program for University Students underlines her commitment to fostering research talent and promoting creativity among the next generation. At Zhengzhou University, Dr. Zhao has been consistently recognized for her excellence in student mentorship and academic leadership, earning titles such as Outstanding Undergraduate Thesis Advisor and Excellent Class Advisor. These honors are a testament to her holistic contributions—not just in laboratory research but also in education, leadership, and student engagement. The range of awards from both institutional and governmental levels affirms her status as a prominent figure in the field of energy materials and highlights her ongoing influence in advancing both academic scholarship and sustainable technologies.
Conclusion
In conclusion, Dr. Yige Zhao stands out as a highly accomplished researcher and academic leader in the field of new energy materials and devices. Her comprehensive educational background, innovative research contributions, and dedication to teaching make her an exemplary candidate for recognition in any competitive award platform. She has made significant strides in addressing pressing energy challenges through her work on hydrogen energy, metal-air batteries, and electrocatalysis, combining fundamental science with practical applications. Her published work in top-tier journals and patent contributions underscore her scientific excellence, while her success in securing national and provincial research funding demonstrates her leadership and credibility in the research community. Additionally, her active involvement in student development and academic instruction reflects a deep commitment to knowledge transfer and mentorship. As global energy systems shift toward sustainability, the work of scientists like Dr. Zhao becomes increasingly vital. Her interdisciplinary approach, strategic vision, and hands-on research skills position her as a driving force in clean energy innovation. Dr. Zhao not only meets but exceeds the criteria for the Best Researcher Award, making her a deserving candidate whose contributions are already making a meaningful impact in the field of sustainable energy science.
Publications Top Notes
A Parallel Array Structured Cobalt Sulfide/Nitrogen Doped Carbon Nanocage/Carbon Fiber Composite Based on Microfluidic Spinning Technology
-
Authors: Yige Zhao, Ting Li, Qing Wang, Yinyin Ai, Ruohan Hou, Aneela Habib, Guosheng Shao, Feng Wang, Peng Zhang
-
Year: 2024
2. Bead-Structured Triple-Doped Carbon Nanocage/Carbon Nanofiber Composite as a Bifunctional Oxygen Electrocatalyst for Zn–Air Batteries
-
Authors: Qing Wang, Yige Zhao, Bo Zhang, Yukun Li, Xiang Li, Guosheng Shao, Peng Zhang
-
Year: 2024
3. One-Pot Synthesis of Nitrogen-Doped Porous Carbon Derived from the Siraitia grosvenorii Peel for Rechargeable Zinc–Air Batteries
-
Authors: Lu Li, Mengyao Zhao, Bo Zhang, Guosheng Shao, Yige Zhao
-
Year: 2023
4. Li Intercalation in an MoSe₂ Electrocatalyst: In Situ Observation and Modulation of Its Precisely Controllable Phase Engineering for a High‐Performance Flexible Li‐S Battery
-
Authors: Yunke Wang, Yige Zhao, Kangli Liu, Shaobin Wang, Neng Li, Guosheng Shao, Feng Wang, Peng Zhang
-
Year: 2023
5. Watermelon Peel‐Derived Nitrogen‐Doped Porous Carbon as a Superior Oxygen Reduction Electrocatalyst for Zinc‐Air Batteries
-
Authors: Lu Li, Zhiheng Wu, Jin Zhang, Yige Zhao, Guosheng Shao
-
Year: 2021
6. Sponge Tofu-like Graphene-Carbon Hybrid Supporting Pt–Co Nanocrystals for Efficient Oxygen Reduction Reaction and Zn–Air Battery
-
Authors: Yige Zhao, Lu Li, Dengke Liu, Zhiheng Wu, Yongxie Wang, Jingjun Liu, Guosheng Shao
-
Year: 2021
7. Nitrogen-Doped Vertical Graphene Nanosheets by High-Flux Plasma Enhanced Chemical Vapor Deposition as Efficient Oxygen Reduction Catalysts for Zn–Air Batteries
-
Authors: Zhiheng Wu, Yongshang Zhang, Lu Li, Yige Zhao, Yonglong Shen, Shaobin Wang, Guosheng Shao
-
Year: 2020
8. Adding Refractory 5d Transition Metal W into PtCo System: An Advanced Ternary Alloy for Efficient Oxygen Reduction Reaction
9. PDA-Assisted Formation of Ordered Intermetallic CoPt₃ Catalysts with Enhanced Oxygen Reduction Activity and Stability
10. Dependent Relationship between Quantitative Lattice Contraction and Enhanced Oxygen Reduction Activity over Pt–Cu Alloy Catalysts