Separator, electrode group, secondary battery, battery pack, vehicle, and stationary power supply

What is claimed is: 1. A separator comprising a composite membrane that includes: a substrate layer; a first composite layer located on one surface of the substrate layer; and a second composite layer located on the other surface of the substrate layer, wherein the composite membrane has a coefficient of air permeability of 1×10 −19 m 2 or more and 1×10 −16 m 2 or less, the first composite layer and the second composite layer each includes inorganic solid particles and a polymeric material, the first composite layer has a first surface in contact with the substrate layer and a second surface located on an opposite side to the first surface, denseness of a portion including the first surface in the first composite layer is lower than denseness of a portion including the second surface in the first composite layer, and a ratio SD C1 /FD C1 of a second density SD C1 to a first density FD C1 is 1.03 or more in the first composite layer, where the first density FD C1 of the first composite layer is a proportion occupied by a portion other than holes in a region from the first surface to a surface located at a depth of 0.2 T C1 with respect to a thickness T C1 of the first composite layer and the second density S C1 of the first composite layer is a proportion occupied by a portion other than holes in a region from the second surface to a surface located at a depth of 0.2 T C1 with respect to the thickness T C1 of the first composite layer. 2. The separator according to claim 1 , wherein the second composite layer has a first surface in contact with the substrate layer and a second surface located on an opposite side to the first surface, and denseness of a portion including the first surface in the second composite layer is lower than denseness of a portion including the second surface in the second composite layer. 3. The separator according to claim 2 , wherein a ratio SD C2 /FD C2 of a first density FD C2 , to a second density SD c2 is 1.03 or more in the second composite layer, the first density FD c2 of the second composite layer is a proportion occupied by a portion other than holes in a region from the first surface of the second composite layer to a surface located at a depth of 0.2 T c2 with respect to a thickness T c2 of the second composite layer and the second density SD C2 of the second composite layer is a proportion occupied by a portion other than holes in a region from the second surface of the second composite layer to a surface located at a depth of 0.2 T C2 with respect to the thickness T C2 of the second composite layer. 4. The separator according to claim 1 , wherein the substrate layer is a nonwoven fabric or a self-supporting porous membrane. 5. The separator according to claim 1 , wherein the inorganic solid particles contain solid electrolyte particles having ion conductivity of an alkali metal ion. 6. The separator according to claim 1 , wherein the inorganic solid particles contain at least one compound selected from the group consisting of LATP (Li 1+x Al x Ti 2−x (PO 4 ) 3 ), where 0.1≤x≤0.5, having a NASICON type skeleton, Li 1.5 Al 0.5 Ge 1.5 (PO 4 ) 3 , amorphous LIPON (Li 2.9 PO 3.3 N 0.46 ), and garnet type LLZ (Li 7 La 3 Zr 2 O 12 ). 7. The separator according to claim 1 , wherein the polymeric material has a portion formed of a monomer unit containing a hydrocarbon having a functional group containing at least one element selected from the group consisting of oxygen (O), sulfur (S), nitrogen (N), and fluorine (F) and a proportion occupied by the portion fbrmed of a monomer unit is 70 mol % or more. 8. The separator according to claim 7 , wherein a functional group of the monomer unit includes at least one selected from the group consisting of a formal group, a butyral group, a carboxymethyl ester group, an acetyl group, a carbonyl group, a hydroxyl group, and a fluoro group. 9. An electrode group comprising: a positive electrode containing a positive electrode active material; a negative electrode containing a negative electrode active material; and the separator according to claim 1 , located at least between the positive electrode and the negative electrode. 10. The electrode group according to claim 9 , wherein the negative electrode active material contains a compound having a lithium ion insertion/extraction potential of 1 V or more and 3 V or less (vs. Li/Li + ) with respect to a potential based on metal lithium. 11. The electrode group according to claim 9 , wherein the positive electrode active material contains a compound having a lithium ion insertion/extraction potential of 2.5 V or more and 5.5 V or less (vs. Li/Li + ) with respect to a potential based on metal lithium. 12. A secondary battery comprising the electrode group according to claim 9 and an aqueous electrolyte. 13. A battery pack comprising the secondary battery according to claim 12 . 14. The battery pack according to claim 13 , further comprising: an external power distribution terminal; and a protective circuit. 15. The battery pack according to claim 13 , further comprising plural of the secondary battery, wherein the plural of the secondary battery are electrically connected in series, in parallel, or in combination of series and parallel. 16. A vehicle comprising the battery pack according to claim 13 . 17. The vehicle according to claim 16 , further comprising a mechanism configured to convert kinetic energy of the vehicle into regenerative energy. 18. A stationary power supply comprising the battery pack according to claim 13 . 19. The separator according to claim 1 , wherein an upper limit of the ratio SD C1 /FD C1 is 2.0 or less. 20. The separator according to claim 1 , wherein the polymeric material is polyvinyl butyral or polyvinyl formal. 21. A separator comprising a composite membrane that includes: a substrate layer; a first composite layer located on one surface of the substrate layer; and a second composite layer located on the other surface of the substrate layer, wherein the composite membrane has a coefficient of air permeability of 1×10 −14 m 2 or less, the first composite layer and the second composite layer each includes inorganic solid particles and a polymeric material, the first composite layer has a first surface in contact with the substrate layer and a second surface located on an opposite side to the first surface, denseness of a portion including the first surface in the first composite layer is lower than denseness of a portion including the second surface in the first composite layer, and a ratio SD C1 /FD C1 of a second density SD C1 to a first density FD C1 is 1.03 or more in the first composite layer, where the first density FD C1 of the first composite layer is a proportion occupied by a portion other than holes in a region from the first surface to a surface located at a depth of 0.2 T C1 with respect to a thickness T C1 of the first composite layer and the second density SD C1 of the first composite layer is a proportion occupied by a portion other than holes in a region from the second surface to a surface located at a depth of 0.2 T C1 with respect to the thickness T C1 of the first composite layer, the polymeric material is polyvinyl butyral or polyvinyl formal.