Magnetic clusters in LiNi1-yCoyO2 nanomaterials used as cathodes in lithium-ion batteries

摘要

We have prepared LiNi1-yCoyO2 (0 less than or equal to Y less than or equal to 1) compounds as polycrystalline nanomaterials (d approximate to 400 nm) using a low-temperature sol-gel method. XRD studies indicate that these materials are single phase for 0.2 less than or equal to y less than or equal to I with an ordered distribution of Li and Ni/Co in the layered structure. Nevertheless, as this technique provides only averaged structural information, it is still possible that locally there are some defects, among them disorder, that could affect the electrochemical behaviour of these materials. In fact, through FTIR spectroscopy we observe for the Li-O band a slight deviation from a linear behaviour for high nickel content (y less than or equal to 0.2), that is attributed to the presence of Ni cations in the predominantly lithium layers (octahedral interstices). In addition, by means of magnetic measurements, chi(m) (T) and M(H), we detect in all the samples a ferrimagnetic signal, that gets smaller and smaller as the Co content increases, but that indeed reveals the presence of some Ni2+ ions occupying Li+ places, that would lead to the formation of small ferromagnetic islands. From those magnetic measurements we have estimated the size of those nanometric magnetic inhomogenities that decreases upon Co doping from R-(y=0) = 3.5 nm to R-(y=0.4) = 0.5 nm. This result confirms that the addition of Co3+ inhibits the presence of interlayer Ni2+ and therefore favours a better lamellar structure, only obtained for y > 0.4. [References: 19]