Company Filing History:
Years Active: 2025
Title: Fenglian Gong: Innovator in Electrode Materials
Introduction
Fenglian Gong is a prominent inventor based in Beijing, China. He has made significant contributions to the field of electrode materials, particularly in the development of advanced materials for energy storage applications. His innovative work has led to the creation of a unique electrode material that enhances the performance of sodium-ion batteries.
Latest Patents
Fenglian Gong holds a patent for a "Homologous heterostructure FeSe electrode material with high tap density and preparation method thereof." This invention introduces a homologous heterostructure FeSe electrode material with exceptional tap density, boasting a tap density of 2.57 cm³/g. The material is synthesized by uniformly mixing iron and selenium powders, followed by heating in a tube furnace. This carbon-free, homologous heterogeneous crystalline FeSe is designed as a sodium-ion battery anode, demonstrating notable structural stability and superior rate performance. The invention enhances charge transfer efficiency through charge redistribution and lattice distortion at the phase boundary, facilitating metal ion transport and introducing extra active sites for reversible redox reactions. These features significantly boost the material's ion transport kinetics and storage capacity, leading to remarkable long-cycle and high-rate performance.
Career Highlights
Fenglian Gong is affiliated with the Beijing University of Chemical Technology, where he conducts research and development in advanced materials. His work has garnered attention for its innovative approach to improving energy storage technologies. With a focus on practical applications, he continues to push the boundaries of material science.
Collaborations
Fenglian Gong collaborates with notable colleagues, including Ying Xiao and Yue Miao. Their combined expertise contributes to the advancement of research in electrode materials and energy storage solutions.
Conclusion
Fenglian Gong's contributions to the field of electrode materials exemplify the impact of innovative research on energy storage technologies. His patented work on homologous heterostructure FeSe electrode materials showcases his commitment to enhancing battery performance and efficiency.