Ultrahigh‐Capacity and Fire‐Resistant LiFePO4‐Based Composite Cathodes for Advanced Lithium‐Ion Batteries

• Published in: Advanced energy materials Vol. 9; no. 10
• Main Authors: Li, Heng, Peng, Long, Wu, Dabei, Wu, Jin, Zhu, Ying‐Jie, Hu, Xianluo
• Format: Journal Article
• Language: English
• Published: Weinheim Wiley Subscription Services, Inc 13.03.2019
• Subjects: Cathodes; Deformation; Electroactive materials; Electrochemical analysis; Electrodes; Energy storage; Fire resistance; Flux density; Formability; Hydroxyapatite; Lithium-ion batteries; Nanocomposites; Nanowires; Organic chemistry; Safety; self‐assembly; Storage batteries; Structural integrity; Structural stability; Thermal stability; ultrahigh capacity

The growing demand for advanced energy storage devices with high energy density and high safety has continuously driven the technical upgrades of cell architectures as well as electroactive materials. Designing thick electrodes with more electroactive materials is a promising strategy to improve the...