| 摘要 |
Provided is a lithium metal composite oxide (powder) having a layered structure, which is capable of exhibiting excellent characteristics in both charge-discharge cycle ability and initial charging and discharging efficiency, and is capable of effectively reducing initial resistance, when being used in a positive electrode of a lithium battery. The lithium metal composite oxide (powder) comprises an amount of S which is less than 0.10% by mass of the lithium metal composite oxide powder, a ratio of a crystallite size of a (003) plane to a crystallite size of a (110) plane which is equal to or greater than 1.0 and less than 2.5, and a ratio of a primary particle area to a secondary particle area of 0.004 to 0.035. |
| 主权项 |
1. A lithium metal composite oxide powder that contains a lithium metal composite oxide having a layered structure,
wherein an amount of S, which is obtained through measurement by an ICP emission analyzer, is less than 0.10% by mass of the lithium metal composite oxide powder (100% by mass), a ratio of a crystallite size of a (003) plane to a crystallite size of a (110) plane in the lithium metal composite oxide, which are calculated from Sherrer's formula by using an X-ray diffraction pattern obtained through X-ray diffraction with CuKα-rays, is equal to or greater than 1.0 and less than 2.5, a ratio (referred to as “primary particle area/secondary particle area”) of a primary particle area that is obtained by the following method of measuring the primary particle area to a secondary particle area that is obtained by the following method of measuring the secondary particle area from secondary particles with a size corresponding to D50 in accordance with a volume-based particle size distribution obtained through measurement by a laser diffraction and scattering particle size distribution measurement method (hereinafter, referred to as “D50”) is 0.004 to 0.035, wherein in the method of measuring the secondary particle area, the lithium metal composite oxide powder is observed with an electron microscope, five secondary particles with a size corresponding to D50 are randomly selected, and the area is calculated by setting a particle length as a diameter (μm) in a case where the secondary particles have a spherical shape, or through approximation to a spherical shape in a case where the secondary particles have an indefinite shape, and an average value of five areas is obtained as the secondary particle area (μm2), and wherein the method of measuring the primary particle area, the lithium metal composite oxide powder is observed with the electron microscope, five secondary particles per one viewing field are randomly selected, 10 primary particles are randomly selected from each of the five secondary particles which are selected, the area is calculated by setting the longest inter-grain-boundary distance as a major axis (μm) and by setting the shortest inter-grain-boundary distance as a minor axis (μm) in a case where the primary particles have a rod shape, or by setting a length of an inter-grain-boundary distance as a diameter (μm) in a case where the primary particles have a spherical shape, and an average value of 50 areas is obtained as the primary particle area (μm2). |
