▎ 摘　　要

Organic electrode materials have great application potential in sodium-ion batteries, but solving the cycling performance of organic materials at high current densities is a huge challenge. Here, Na2C6O6/reduced graphene oxide-sodium alginate (SR/RGO-SA) was prepared by antisolvent precipitation and solvothermal methods. The hydrogen bonds formed between SR and RGO-SA and the conductive network of RGO-SA were used to prevent the capacity attenuation caused by pulverization upon prolonged cycling. Versus SR electrodes, the SR/RGO-SA electrode has better cycle performance and rate performance at high current densities. The SR/RGO-SA cathodes (7 : 3) show high specific capacity (157.2 mAh g(-1) at 500 mA g(-1) rate, 0.5-3.2 V) after 100 cycles. This modification method improves cycling performance by improving organic electrode materials.