Lithium ion secondary battery and method for manufacturing lithium ion secondary battery

The invention claimed is: 1. A lithium ion secondary battery comprising: a negative electrode sheet including a negative current collector sheet and a negative active material layer formed on the negative current collector sheet, the negative active material layer containing negative active material particles; and a positive electrode sheet facing the negative electrode sheet through separators interposed therebetween, wherein the negative active material particles include at least first particles made of graphite and second particles made of amorphous carbon, the negative active material layer is configured so that: a ratio of an amount of the first particles to a total amount of the negative active material particles contained in a portion of the negative active material layer on a side close to the negative current collector sheet in a layer thickness direction is higher than a ratio of an amount of the first particles to a total amount of the negative active material particles contained in the negative active material layer, and a ratio of an amount of the second particles to a total amount of the negative active material particles contained in a portion of the negative active material layer on a side close to a surface of the negative active material layer in the layer thickness direction is higher than a ratio of an amount of the second particles to a total amount of the negative active material particles contained in the negative active material layer, the negative active material layer is formed of a plurality of layers laminated in the layer thickness direction, the plurality of layers including a first layer located on a side closest to the negative current collector sheet and a second layer located on a side closest to the surface of the negative active material layer, the negative active material particles of the first layer are composed of the first particles, the negative active material particles of the second layer are composed of the second particles, and the first layer has a density of 1.2 to 1.6 g/cm 3 . 2. The lithium ion secondary battery according to claim 1 , wherein the negative active material layer is formed of the first layer and the second layer. 3. The lithium ion secondary battery according to claim 1 , wherein the second layer has a density of 1.2 g/cm 3 or less. 4. A method for manufacturing a lithium ion secondary battery, comprising: a negative electrode sheet including a negative current collector sheet and a negative active material layer formed on the negative current collector sheet, the negative active material layer containing negative active material particles; and a positive electrode sheet facing the negative electrode sheet through separators interposed therebetween, wherein the negative active material particles includes at least first particles made of graphite and second particles made of amorphous carbon, the negative active material layer is configured so that: a ratio of an amount of the first particles to a total amount of the negative active material particles contained in a portion of the negative active material layer on a side close to the negative current collector sheet in a layer thickness direction is higher than a ratio of an amount of the first particles to a total amount of the negative active material particles contained in the negative active material layer, and a ratio of an amount of the second particles to a total amount of the negative active material particles contained in a portion of the negative active material layer on a side close to a surface of the negative active material layer in the layer thickness direction is higher than a ratio of an amount of the second particles to a total amount of the negative active material particles contained in the negative active material layer, the negative active material layer is formed of a plurality of layers laminated in the layer thickness direction, the plurality of layers including a first layer located on a side closest to the negative current collector sheet and a second layer located on a side closest to the surface of the negative active material layer, the negative active material particles of the first layer are composed of the first particles, the negative active material particles of the second layer are composed of the second particles, and the first layer has a density of 1.2 to 1.6 g/cm 3 , wherein the method includes: a lamination coating step of applying active material paste containing the negative active material particles on the negative current collector sheet more than once to form a laminated coating film; and a drying step of drying the laminated coating film, and the lamination coating step uses active material pastes prepared so that the pastes to be coated for more upper layers have a higher or equal ratio of the second particles and a lower or equal ratio of the first particles relative to a total amount of the negative active material particles contained in own paste. 5. A method for manufacturing a lithium ion secondary battery, comprising: a negative electrode sheet including a negative current collector sheet and a negative active material layer formed on the negative current collector sheet, the negative active material layer containing negative active material particles; and a positive electrode sheet facing the negative electrode sheet through separators interposed therebetween, wherein the negative active material particles includes at least first particles made of graphite and second particles made of amorphous carbon, the negative active material layer is configured so that: a ratio of an amount of the first particles to a total amount of the negative active material particles contained in a portion of the negative active material layer on a side close to the negative current collector sheet in a layer thickness direction is higher than a ratio of an amount of the first particles to a total amount of the negative active material particles contained in the negative active material layer, and a ratio of an amount of the second particles to a total amount of the negative active material particles contained in a portion of the negative active material layer on a side close to a surface of the negative active material layer in the layer thickness direction is higher than a ratio of an amount of the second particles to a total amount of the negative active material particles contained in the negative active material layer, the negative active material layer is formed of a plurality of layers laminated in the layer thickness direction, the plurality of layers including a first layer located on a side closest to the negative current collector sheet and a second layer located on a side closest to the surface of the negative active material layer, the negative active material particles of the first layer are composed of the first particles, the negative active material particles of the second layer are composed of the second particles, and the first layer has a density of 1.2 to 1.6 g/cm 3 , wherein the method includes: a coating step of applying active material paste containing the negative active material particles on the negative current collector sheet or on a lower-layer negative active material layer made of already coated and dried active material paste; and a drying step of drying the coated paste, the coating step and the drying step being alternately repeated, and the coating step uses the active material pastes prepared so that the pastes to be coated at later stages have a higher or equal ratio of the second particles and a lower or equal ratio of the first particles relative to a total amount of the negative active material particles contained in own paste. 6. The lithium ion secondary battery ac