Negative electrode active material, negative electrode and method for producing them

The invention claimed is: 1. A negative electrode active material comprising negative electrode active material particles, wherein the negative electrode active material particles contain silicon compound particles containing a silicon compound, the silicon compound particles contain Li 2 SiO 3 , at least a part of a surface of the silicon compound particles is covered with a carbon layer, and a surface layer of the negative electrode active material particles contains a substance having a carboxylic acid structure, wherein the negative electrode active material particles are that in which a negative fragment derived from a carboxylic acid structure is detected by measurement by TOF-SIMS, wherein a spectral intensity of Si x+ (0<x<4) of a negative electrode containing the negative electrode active material after charging is higher than that of the negative electrode after discharging in a spectrum of K absorption edge XANES of Si obtained from the XAFS measurement of the negative electrode taken out from a charged secondary battery, and the negative electrode taken out from the charged secondary battery after complete discharge, and wherein the XANES spectrum of the negative electrode after the charge spectral intensity of Si x+ (2≤x<4) is higher than spectral intensity of Si x+ (0<x<2). 2. The negative electrode active material according to claim 1 , wherein the silicon compound particles contain metal particles, the metal particles having an average size of 10 nm or less, inside the silicon compound particles. 3. The negative electrode active material according to claim 2 , wherein the metal particles have a vapor pressure lower than that of the silicon compound. 4. The negative electrode active material according to claim 1 , wherein the negative electrode active material particles have a median diameter of 4.0 μm or more and 12 μm or less. 5. The negative electrode active material according to claim 1 , wherein the average thickness of the carbon layer is 5 nm or more and 500 nm or less. 6. A negative electrode comprising the negative electrode active material according to claim 1 . 7. A method for producing a negative electrode active material containing negative electrode active material particles comprising the steps of: producing silicon compound particles containing a silicon compound, coating at least a part of the silicon compound particles with a carbon layer, inserting Li into the silicon compound particles to make the silicon compound particles contain Li 2 SiO 3 , and making a surface layer of the negative electrode active material particles contain a substance having a carboxylic acid structure by performing surface modification of the negative electrode active material particles containing the silicon compound particles coated with the carbon layer, wherein the negative electrode active material particles are that in which a negative fragment derived from a carboxylic acid structure is detected by measurement by TOF-SIMS, wherein a spectral intensity of Si x+ (0<x<4) of a negative electrode containing the negative electrode active material after charging is higher than that of the negative electrode after discharging in a spectrum of K absorption edge XANES of Si obtained from the XAFS measurement of the negative electrode taken out from a charged secondary battery, and the negative electrode taken out from the charged secondary battery after complete discharge, and wherein the XANES spectrum of the negative electrode after the charge spectral intensity of Si x+ (2≤x<4) is higher than spectral intensity of Si x+ (0<x<2). 8. A method for producing a negative electrode containing negative electrode active material particles comprising the steps of: producing silicon compound particles containing a silicon compound, coating at least a part of the silicon compound particles with a carbon layer, forming a negative electrode containing the silicon compound particles coated with the carbon layer, inserting Li into the silicon compound particles contained in the formed negative electrode and making the silicon compound particles contain Li 2 SiO 3 , and making a surface layer of the negative electrode active material particles contained in the negative electrode contain a substance having a carboxylic acid structure by performing surface modification of the negative electrode active material particles containing the silicon compound particles coated with the carbon layer, wherein the negative electrode active material particles are that in which a negative fragment derived from a carboxylic acid structure is detected by measurement by TOF-SIMS, wherein a spectral intensity of Si x+ (0<x<4) of a negative electrode containing the negative electrode active material after charging is higher than that of the negative electrode after discharging in a spectrum of K absorption edge XANES of Si obtained from the XAFS measurement of the negative electrode taken out from a charged secondary battery, and the negative electrode taken out from the charged secondary battery after complete discharge, and wherein the XANES spectrum of the negative electrode after the charge spectral intensity of Si x+ (2≤x<4) is higher than spectral intensity of Si x+ (0<x<2).