This study helps finding appropriate materials (electrode, electrolyte, and substrate), and paves the way for optimization of the cells. Accordingly, an insight for the perspective of the future researches of the intercalation batteries is suggested. It is concluded that (de)intercalation of AlCl 4 − ions has a faster kinetic than Al 3+ ions. It is found that among the considered materials the carbon-based electrodes including graphene, carbon nanotube, and graphite provide the best performance and rate-capability, while the MoS 2 electrode shows the poorest one. We find that the distribution of the curves is due to three main parameters, namely synthesis method, electrolyte type, and substrate of the electrode. The data of Al-ion batteries’ electrode materials show more distribution in comparison with Li-ion and Na-ion batteries. The approach presents an appropriate manner for assessing the goodness of a given electrode and cell performance. Evaluating the data, we employ an approach which has been proposed for the normalization and standardization of the intercalation batteries’ data. In this paper, we extract many experimental charge-discharge data (C and R) from the literature. The improvement of the intercalation electrodes for Al-ion batteries needs a deep understanding of the relation of charge-discharge parameters, especially the specific capacity (C) and the charge-discharge rate (R).
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |