Pseudo-capacitive Behavior of Graphene Oxide Paper in AlCl3 and 1-ethyl-3-methylimidazalium Chloride (Molar Ratio of 1.3:1) Solution and its Application for Aluminium Ion Batteries

摘要

Graphene-based materials are cathodes of Al-ion batteries and have attracted the attention ofresearchers worldwide. However, reasons for self-discharge in Al/graphene batteries have not beenstudied in depth. In the present work, a pseudo-capacitive reaction is proposed to be a probable causeof the self-discharge. Quantitative analysis of the capacitance process and diffusion-control process iscritical for the pseudo-capacitive behavior in Al/graphene batteries. Two self-supported graphenecathodes (R H -GOP and R N -GOP) were successfully produced from graphene oxides (GO) reduced withhydriodic acid and hydrazine vapor, respectively. R H -GOP and R N -GOP cathodes enabled the deliveryof considerably high specific capacities of 81.5 mAh g -1 and 92.8 mAh g -1 , at the current density of 2 Ag -1 . In addition, the activation processes of both materials were observed during 200 cycles of thecharge-discharge process. From a quantitative perspective, the ratios of faradaic pseudo-capacitance tothe total capacity of the R H -GOP and R N -GOP cathode were 48.6% and 38.5%, respectively, at ascanning rate of 5.0 mV s -1 . It is found that the proportion of faradaic pseudo-capacitance will increaseas cyclic voltammetry scanning increases, which indicates the existence of pseudo-capacitance beingthe reason why it an Al/graphene battery has to be charged-discharged at high current densities tomaintain normal operation.