Sodium Storage Mechanism and Performance Optimization of Hard Carbon Anodes for Sodium-Ion Batteries: A Review and Perspectives

With the growing demand for energy, researchers are seeking energy storage methods that can be applied on a large scale. Secondary batteries in electrochemical energy storage have gained attention. Sodium-ion batteries (SIBs) are easy to obtain, inexpensive, safe, and perform well in low-temperature environments. In order to achieve large-scale application of SIBs and improve their electrochemical performance, researchers have found that hard carbon (HC) is currently the most suitable anode material for SIBs. This paper provides a comprehensive review of HC anodes for SIBs. It begins by classifying precursors and summarizing preparation methods. The discussion then covers microstructures, structural control techniques, and sodium storage mechanisms. Additionally, the paper proposes performance optimization strategies and outlines future development prospects. Finally, the article points out that current HC materials still face challenges in industrial applications, including unclear sodium storage mechanisms, low initial efficiency, and poor batch consistency. It also outlines future research directions in theoretical unification, precursor development, and engineering applications.