Rice husk-derived hard carbons as high-performance anode materials for sodium-ion batteries
2018
Wang, Qiaoqiao | Zhu, Xiaoshu | Liu, Yuhan | Fang, Yuyan | Zhou, Xiaosi | Bao, Jianchun
Sodium-ion batteries (SIBs) have drawn ever-increasing attention for scalable electrical energy storage owing to the inexhaustible sources and wide distribution of sodium. However, to develop feasible anode materials still remains a great challenge for the practical application of SIBs. Here, we report hard carbons derived from a plentiful and deserted biomass of rice husk through a facile acid treatment and subsequent pyrolysis. The investigation illustrates that the electrochemical properties of the rice husk-derived hard carbons (RHHCs) are significantly influenced by the pyrolysis temperature because of the discrepancy in their microstructure. The RHHC pyrolyzed at 1300 °C (RHHC-1300) shows the highest reversible capacity of 372 mAh g⁻¹ and good cycling stability and rate performance due to its large interlayer distance and suitable oxygen content. Moreover, full sodium-ion batteries are assembled to examine the application prospect using Na₃V₂(PO₄)₂F₃/C and RHHC-1300 as cathode and anode materials, respectively, delivering a high-energy density of 185 Wh kg⁻¹ and stable cycling performance. This work could intensify the fundamental understanding of the sodium storage mechanism in biomass-derived hard carbons.
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