Junjie Zhang | Electrocatalysis | Best Researcher Award

Dr Junjie Zhang | Electrocatalysis | Best Researcher Award

University Instructor, Civil Aviation Flight University of China, Malaysia

Dr. JunJie Zhang is a Lecturer at the Civil Aviation Flight University of China, specializing in electrocatalysis and fuel cell technology. With a background in engineering, Dr. Zhang has made significant contributions to the development of non-precious metal-doped carbon-based electrocatalysts for fuel cells. He holds a Ph.D. in Engineering from Dalian Maritime University, where his research focused on the preparation and optimization of these advanced electrocatalysts. Dr. Zhang has authored several high-impact publications in prestigious journals such as Journal of Materials Science and ChemistrySelect. His research aims to improve the efficiency of energy conversion and storage technologies, with a particular emphasis on the oxygen reduction reaction (ORR). He is proficient in advanced techniques such as density functional theory simulations, material characterization, and experimental design. Dr. Zhang continues to drive innovation in electrocatalysis, focusing on sustainable energy technologies and green chemistry.

Profile

Orcid

Education

Dr. JunJie Zhang completed his Ph.D. in Engineering at Dalian Maritime University, a leading institution in China. His doctoral research focused on the preparation and optimization of non-precious metal-doped carbon-based electrocatalysts for fuel cells. This work involved extensive use of advanced techniques such as material property analysis, electrocatalytic characterization, and density functional theory (DFT) simulation calculations. His educational journey has equipped him with a solid foundation in both theoretical and practical aspects of electrochemistry and material science. Before his Ph.D., Dr. Zhang completed his undergraduate studies in engineering, laying the groundwork for his expertise in nanomaterials, energy systems, and electrochemical processes. Through his educational pursuits, he has acquired a robust understanding of the scientific principles governing catalysis, electrochemical reactions, and the application of computational methods to enhance material design. His academic training continues to influence his current work and his approach to innovative research in electrocatalysis.

Experience

Dr. JunJie Zhang has accumulated significant academic and research experience in the field of electrocatalysis, with a particular focus on fuel cell technology. As a Lecturer at the Civil Aviation Flight University of China, he is responsible for teaching courses related to materials science and energy systems, fostering the next generation of engineers and researchers. He has been involved in numerous research projects aimed at enhancing the performance of electrocatalysts, particularly for the oxygen reduction reaction (ORR), a key process in fuel cells and metal-air batteries. His expertise spans experimental design, data analysis, manuscript writing, and publication in peer-reviewed journals. Over the years, Dr. Zhang has worked with various research teams and collaborators on cutting-edge projects, developing novel catalysts derived from biomass materials and marine sources. His experience in computational simulations, coupled with his practical laboratory skills, has enabled him to make significant strides in improving the efficiency of electrochemical reactions in energy systems.

Research Focus

Dr. JunJie Zhang’s research focuses on the development of advanced electrocatalysts for energy conversion and storage technologies, particularly in fuel cells and metal-air batteries. His primary interest lies in the preparation and optimization of non-precious metal-doped carbon-based electrocatalysts, which are critical for enhancing the efficiency of the oxygen reduction reaction (ORR). Dr. Zhang has also explored the use of biomass-derived materials and marine resources as sustainable precursors for catalyst synthesis, aiming to reduce the cost and environmental impact of catalyst production. His research integrates experimental techniques with computational simulations, particularly density functional theory (DFT), to design and optimize catalysts at the molecular level. By focusing on green chemistry and sustainable energy solutions, Dr. Zhang’s work has the potential to drive innovations in clean energy technologies. His long-term goal is to contribute to the development of energy systems that are both cost-effective and environmentally friendly.

Publication Top Notes

1. Zhang, J., Wang, J., Fu, Y., Peng, X., Xia, M., Peng, W., Liang, Y., Wei, W. “Nanoscale Fe3O4 Electrocatalysts for Oxygen Reduction Reaction.” Molecules, 2025, 30: 1753.
Summary: This article investigates the development of nanoscale Fe3O4 electrocatalysts for oxygen reduction reaction (ORR). The study demonstrates the enhanced catalytic performance of Fe3O4-based catalysts, which are a promising alternative for fuel cell applications.

2. Zhang, J., Xing, P., Wei, W., et al. “DFT-guided design and synthesis of sea cucumber-derived N, S dual-doped porous carbon catalyst for enhanced oxygen reduction reaction and Zn-air battery performance.” Journal of Materials Science, 2023, 58: 11968–11981.
Summary: This paper explores the design and synthesis of N, S dual-doped porous carbon catalysts derived from sea cucumber for enhanced oxygen reduction reaction (ORR) and Zn-air battery performance. The study leverages density functional theory (DFT) to guide the synthesis and optimization process.

Conclusion:

JunJie Zhang is a highly deserving candidate for the Best Researcher Award due to his impactful contributions to the field of fuel cell technology and electrocatalysis. His research on improving oxygen reduction reactions using biomass-derived nanocarbon catalysts stands out for its innovation and sustainability. While there are areas for improvement, particularly in expanding his collaborative network and public outreach, Zhang’s achievements in materials science, energy systems, and his dedication to advancing green technologies make him an excellent candidate for this prestigious award.