Composite metal oxide material and preparation method thereof, positive electrode plate, secondary battery, battery module, battery pack and electrical device

What is claimed is: 1. A composite metal oxide material used for a positive electrode of a secondary battery, wherein the composite metal oxide material is in a form of a particle and comprises: a central core, wherein the central core comprises a material having a chemical formula of Li 5 Fe x M 1−x O 4 , wherein 0.6≤x<1; and a coating layer on a surface of the central core, wherein the coating layer comprises a material having a chemical formula of LiMO 2 ; and, wherein M is one or more metal elements different from Fe and with +3 valence, and an absolute value of the difference between +3-valence ion radius of Fe and +3-valence ion radius of M is ≤0.02 nm. 2. The composite metal oxide material according to claim 1 , wherein an absolute value of the difference between the +3-valence ion radius of Fe and the +3-valence ion radius of M is ≤0.01 nm. 3. The composite metal oxide material according to claim 1 , wherein 0.8≤x<1. 4. The composite metal oxide material according to claim 1 , wherein the M has a +3-valence ion radius of from 0.040 nm to 0.070 nm. 5. The composite metal oxide material according to claim 1 wherein the composite metal oxide material further comprises: a transition layer, located between the central core and the coating layer, and a molar ratio of Fe to M in the transition layer is less than the molar ratio of Fe to M in the central core material Li 5 Fe x M 1−x O 4 . 6. The composite metal oxide material according to claim 5 , wherein the Fe element content in the transition layer gradually decreases from the central core to the coating layer. 7. The composite metal oxide material according to claim 5 , wherein the transition layer has a thickness at the thickest part of H max , and H max is ≤1 μm. 8. The composite metal oxide material according to claim 1 , wherein M is selected from one or more in Al, Ni, Co, Mn, Cr, Cu, Nb, Ga, Mo, Ru, Rh, and Ir. 9. The composite metal oxide material according to claim 1 , wherein based on the total mass of the composite metal oxide material, a mass percentage of LiMO 2 is from 0.5% to 5%. 10. The composite metal oxide material according to claim 1 , wherein the composite metal oxide material has a volume average particle diameter Dv50 of from 2 μm to 8 μm. 11. The composite metal oxide material according to claim 1 , wherein the metal element M of the central core material is the same as the metal element M of the coating layer. 12. A positive electrode plate for a secondary battery, the positive electrode plate comprising: a positive active material and a composite metal oxide material dispersed in the positive active material, wherein the composite metal oxide material is in a form of a particle and comprises: a central core, wherein the central core comprises a material having a chemical formula of Li 5 Fe x M 1−x O 4 , 0.6≤x<1; and a coating layer on a surface of the central core, wherein the coating layer comprises a material having a chemical formula of LiMO 2 ; and, wherein M is one or more metal elements different from Fe and with +3 valence, and an absolute value of the difference between +3-valence ion radius of Fe and +3-valence ion radius of M is ≤0.02 nm. 13. The positive electrode plate according to claim 12 , wherein based on the mass of the positive active material, a mass percentage of the composite metal oxide material is less than or equal to 20% (≤20%). 14. A secondary battery comprising the positive electrode plate according to claim 12 . 15. The positive electrode plate according to claim 12 , wherein based on the mass of the positive active material, the mass percentage of the composite metal oxide material is from 1% to 10%.