摘要
The closed pore has been considered as the key structure for Na ion storage in hard carbon.However,the traditional view is that closed pores can only be formed by the curling of graphite-like crystallites in the case of high temperature carbonization.Ingenious designing of closed pore structures at lower temperature is still blank.Herein,for the first time,engineering the wall thickness and number of closed pores in waste rosewood-derived hard carbon was successfully achieved at a low temperature of 1100℃ by removing the lignin and hemicellulose components in wood precursor.When applied as an anode material,the optimum sample exhibits a high capacity of 326 mAh/g at 20 mA/g and a remarkable rate capability of 230mAh/g at 5000 mA/g,significantly higher than those of the untreated sample(only 33 mAh/g at 5000 mA/g).The significantly improved Na storage performance should be attributed to abundant closed pores that provide sufficient spaces forNa storage and thin porewall structure that is beneficial to the diffusion of Na^(+)in the bulk phase.This work provides a new idea for the future application of biomass-based hard carbon for advanced Na ion batteries.
出处
《SusMat》
2022年第3期357-367,共11页
可持续发展材料(英文)
基金
National Nature Science Foundation of China,Grant/Award Numbers:21905306,21975289,22005199,U19A2019
Hunan Province Natural Science Foundation,Grant/Award Number:2020JJ5694
Hunan Provincial Science and Technology Plan Project of China,Grant/Award Numbers:2017TP1001,2020JJ2042
Open sharing Fund for the Large-scale Instrument and Equipmnets of Central South Univerisity,Grant/Award Number:CSUZCC202112
Fundamental Research Funds for the Central South University,Grant/Award Numbers:2020zzts060,2021zzts0531。
