US2016164089A1PendingUtilityA1

Lithium-manganese composite oxide, secondary battery, and electric device

Assignee: SEMICONDUCTOR ENERGY LABPriority: Jul 15, 2013Filed: Feb 10, 2016Published: Jun 9, 2016
Est. expiryJul 15, 2033(~7 yrs left)· nominal 20-yr term from priority
H01M 2004/028H01M 2220/30H01M 4/362H01M 4/525H01M 10/0525H01M 4/505H01B 1/08H01M 2220/20H01M 10/052Y02E60/10
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Claims

Abstract

The amount of lithium ions that can be received and released in and from a positive electrode active material is increased, and high capacity and high energy density of a secondary battery are achieved. Provided is a lithium-manganese composite oxide represented by Li x Mn y M z O w , where M is a metal element other than Li and Mn, or Si or P, and y, z, and w satisfy 0≦x/(y+z)<2, y>0, z>0, 0.26≦(y+z)/w<0.5, and 0.2<z/y<1.2. The lithium manganese composite oxide has high structural stability and high capacity.

Claims

exact text as granted — not AI-modified
1 . (canceled) 
     
     
         2 . A lithium-manganese composite oxide represented by Li x Mn y Ni z O w ,
 wherein x is greater than or equal to zero,   wherein y, z, and w are each greater than zero,   wherein x, y, z, and w satisfy 1.4≦x/(y+z)≦1.64, 0.26≦(y+z)/w<0.5 and 0.2<z/y<1.2,   wherein the layered rock-salt crystal structure belongs to a space group C12/m1,   wherein in the layered rock-salt crystal structure, the sum of A(Mn) 2b  and A(Ni) 2b  is greater than or equal to 40%, and
 wherein A(Mn) 2b  is an occupancy of Mn at the 2b site, and 
 wherein A(Ni) 2b  is an occupancy of Ni at the 2b site, 
 wherein in the layered rock-salt crystal structure, the sum of A(Mn) 2c+4h  and A(Ni) 2c+4h  is greater than or equal to 0.2%, 
 wherein A(Mn) 2c+4h  is an occupancy of Mn at a 2c site and an occupancy of Mn at a 4h site, represented by Formula (1), 
 wherein A(Ni) 2c+4h  is an occupancy of Ni at the 2c site and an occupancy of Ni at the 4h site, A(Ni) 2c+4h , represented by Formula (2), and 
 wherein A(Mn) 2c  is the occupancy of Mn at the 2c site, A(Ni) 2c  is the occupancy of Ni at the 2c site, A(Mn) 4h  is the occupancy of Mn at the 4h site, and A(Ni) 4h  is the occupancy of Ni at the 4h site.
     A (Mn) 2c+4h   =[A (Mn) 2c ×1 +A (Mn) 4h ×2]÷(1+2)  Formula (1)
 
     A (Ni) 2c+4h   =[A (Ni) 2c ×1 +A (Ni) 4h ×2]÷(1+2)  Formula (2)
 
 
   
     
     
         3 . The lithium-manganese composite oxide according to  claim 2 , wherein the lithium-manganese composite oxide comprises a layered rock-salt crystal structure and a spinel crystal structure. 
     
     
         4 . The lithium-manganese composite oxide according to  claim 2 , wherein in the layered rock-salt crystal structure, an a-axis lattice constant is larger than or equal to 0.494 nm and a b-axis lattice constant is larger than or equal to 0.856 nm. 
     
     
         5 . The lithium-manganese composite oxide according to  claim 2 , wherein a c-axis lattice constant of the layered rock-salt crystal structure is larger than or equal to 0.5021 nm. 
     
     
         6 . A lithium-ion secondary battery comprising the lithium-manganese composite oxide according to  claim 2 , as a positive electrode active material. 
     
     
         7 . An electric device comprising the lithium-ion secondary battery according to  claim 6 . 
     
     
         8 . A lithium-manganese composite oxide represented by Li x Mn y Ni z O w ,
 wherein x is greater than or equal to zero,   wherein y, z, and w are each greater than zero,   wherein x, y, z, and w satisfy 1.4≦x/(y+z)≦1.64, 0.26≦(y+z)/w<0.5 and 0.2<z/y<1.2,   wherein the layered rock-salt crystal structure belongs to a space group C12/m1, and   wherein in the layered rock-salt crystal structure, an a-axis lattice constant is larger than or equal to 0.494 nm and a b-axis lattice constant is larger than or equal to 0.856 nm.   
     
     
         9 . The lithium-manganese composite oxide according to  claim 8 , wherein a c-axis lattice constant of the layered rock-salt crystal structure is larger than or equal to 0.5021 nm. 
     
     
         10 . The lithium-manganese composite oxide according to  claim 8 , wherein the lithium-manganese composite oxide comprises a layered rock-salt crystal structure and a spinel crystal structure. 
     
     
         11 . A lithium-ion secondary battery comprising the lithium-manganese composite oxide according to  claim 8 , as a positive electrode active material. 
     
     
         12 . An electric device comprising the lithium-ion secondary battery according to  claim 11 .

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