Lithium Secondary Battery

1 . A lithium secondary battery comprising a power generating element, the power generating element including: a positive electrode in which a positive electrode active material layer containing a positive electrode active material capable of occluding and releasing lithium ions is disposed on a surface of a positive electrode current collector; a negative electrode which includes a negative electrode current collector in which lithium metal is deposited on the negative electrode current collector during charging; and a solid electrolyte layer intervening between the positive electrode and the negative electrode and containing a solid electrolyte, wherein a carbon particle layer containing carbon particles having an intensity ratio R (I G /I D ) of G-band peak intensity (I G ) and D-band peak intensity (I D ) measured by Raman scattering spectroscopy of 7 or more, is disposed on at least a part of a region, where the positive electrode active material layer faces the negative electrode current collector, of a main surface of the negative electrode current collector facing the solid electrolyte layer. 2 . The lithium secondary battery according to claim 1 , wherein the carbon particle layer contains carbon particles having an intensity ratio R of 50 or more. 3 . The lithium secondary battery according to claim 1 , wherein the carbon particles contain graphene. 4 . The lithium secondary battery according to claim 1 , wherein, among the carbon particles contained in the carbon particle layer, a proportion of particles whose major axes are oriented in a plane direction of the carbon particle layer is 80% or more. 5 . The lithium secondary battery according to claim 1 , wherein a surface roughness (maximum height; Rz) of a main surface of the carbon particle layer on a solid electrolyte layer side is 15 μm or less. 6 . The lithium secondary battery according to claim 1 , wherein a peel strength of the carbon particle layer from the negative electrode current collector is 5 N/m or more. 7 . The lithium secondary battery according to claim 1 , wherein the carbon particle layer is disposed on a part of a surface of the negative electrode current collector. 8 . The lithium secondary battery according to claim 1 , wherein an outer peripheral end of the carbon particle layer is located inside an outer peripheral end of the solid electrolyte layer when the power generating element is viewed in plan view. 9 . The lithium secondary battery according to claim 1 , wherein an ion-conductive reaction suppression layer having lithium-ion conductivity and suppressing a reaction between the lithium metal and the solid electrolyte is provided on at least a part of a region, where the positive electrode active material layer faces the negative electrode current collector, of a main surface of the solid electrolyte layer facing the negative electrode current collector. 10 . The lithium secondary battery according to claim 9 , wherein the ion-conductive reaction suppression layer has electron conductivity. 11 . The lithium secondary battery according to claim 9 , wherein the ion-conductive reaction suppression layer has an electron insulating property. 12 . The lithium secondary battery according to claim 9 , wherein a Young's modulus of the ion-conductive reaction suppression layer is 2 GPa or more. 13 . The lithium secondary battery according to claim 9 , wherein a lithium deposition energy reducing layer containing an elementary substance of an element capable of forming an alloy with lithium or a compound or salt containing the element is further provided on at least a part of a main surface of the ion-conductive reaction suppression layer facing the negative electrode current collector.