Separator, nonaqueous electrolyte battery, battery pack, electronic device, electric vehicle, power storage device, and power system

The invention claimed is: 1. A separator comprising: a substrate layer that is porous; and a surface layer that is provided on at least one main face of the substrate layer and that has an uneven shape, wherein the surface layer includes first particles forming convexities of the uneven shape, the first particles are a main component of the convexities, second particles that have a smaller average particle size than the first particles, cover at least a part of a surface of the first particles, and cover at least a part of a surface of the substrate layer that is exposed between the first particles, the first and second particles comprise inorganic particles, and a resin material including a fluororesin, wherein a mass ratio of the second particles to the first particles is 27:63 to 89:1. 2. The separator according to claim 1 , wherein the first particles function as a spacer and have a height that is substantially same as a thickness of the surface layer. 3. The separator according to claim 2 , wherein a height difference of the uneven shape is 2 μm or more. 4. The separator according to claim 3 , wherein the first particles have an average particle size of 3.5 μm or more. 5. The separator according to claim 4 , wherein a convexity density is 300 per mm2 or more to 2,800 per mm 2 or less. 6. The separator according to claim 3 , wherein a thickness of a layer covered by a surface of the substrate layer formed by the second particles is 1.5 μm or more to 3.0 μm or less. 7. The separator according to claim 3 , wherein the second particles have an average particle size of 0.1 μm or more to 1.0 μm or less. 8. The separator according to claim 1 , wherein the first particles and the second particles are electrically insulating particles. 9. The separator according to claim 1 , wherein the substrate layer is a resin film that is porous. 10. A nonaqueous electrolyte battery comprising: the separator of claim 1 ; an electrode body including a positive electrode and a negative electrode that oppose each other with the separator provided therebetween; and a nonaqueous electrolyte. 11. The nonaqueous electrolyte battery according to claim 10 , wherein the negative electrode includes as a negative electrode active material an alloy-based negative electrode material having as a constituent element at least one kind of element selected from among metal elements and semi-metal elements that are capable of forming an alloy with lithium. 12. The nonaqueous electrolyte battery according to claim 11 , wherein the alloy-based negative electrode material includes tin as the constituent element. 13. A battery pack comprising: the nonaqueous electrolyte battery according to claim 10 ; a controller configured to control the nonaqueous electrolyte battery; and a package configured to house the nonaqueous electrolyte battery. 14. An electronic device comprising: the nonaqueous electrolyte battery according to claim 10 , wherein the electronic device receives a supply of power from the nonaqueous electrolyte battery. 15. An electric vehicle comprising: the nonaqueous electrolyte battery according to claim 10 ; a conversion device configured to receive a supply of power from the nonaqueous electrolyte battery and convert the received power into a vehicle drive force; and a control device configured to perform information processing relating to vehicle control based on information regarding the nonaqueous electrolyte battery. 16. A power storage device comprising: the nonaqueous electrolyte battery according to claim 10 , wherein the power storage device is configured to supply power to an electronic device connected to the nonaqueous electrolyte battery. 17. The power storage device according to claim 16 , comprising: a power information control device configured to exchange signals with another device via a network, wherein the power storage device is configured to perform charging and discharging control of the nonaqueous electrolyte battery based on information received by the power information control device. 18. A power system configured to receive a supply of power from the nonaqueous electrolyte battery according to claim 10 , or to supply power to the nonaqueous electrolyte battery from a power generation device or a power network. 19. The separator according to claim 1 , wherein the first and second particles comprise an aluminosilicate selected from the group consisting of layered silicates, barium titanate, strontium titanate, and combinations thereof. 20. The separator according to claim 1 , wherein the first and second particles comprise organic particles comprising resins having a melting point or a glass transition temperature of at least 180° C. 21. The separator according to claim 2 , wherein the first and second particles further comprise inorganic particles of silicon oxide. 22. The separator according to claim 1 , wherein the second particles are primary particles or secondary particles agglomerated from the primary particles. 23. The separator according to claim 1 , wherein the second particles cover the surface of the substrate and form a base layer that acts as a base of the first particles, and the first particles are arranged so that some of the first particles are embedded in the base layer. 24. The separator according to claim 1 , wherein a thickness of the surface layer is 3.0 μm or more to 8.0 μm or less. 25. The separator according to claim 1 , wherein a surface roughness of the surface layer is 0.60 μm or more to 0.70 μm or less. 26. The separator according to claim 1 , wherein one or both of a contraction ratio in MD direction is 24% or more to 38% or less, and a contraction ratio in TD direction is 21% or more and 32% or less. 27. The separator according to claim 1 , wherein the mass ratio among the second particles and the first particles is 27:63 to 81:9. 28. The separator according to claim 1 , wherein the first and second particles have shapes selected from the group consisting of spherical, plate-shaped, fibrous, cubic, and combinations thereof. 29. The separator according to claim 1 , wherein the first particles are boehmite and the second particles are alumina. 30. The separator according to claim 1 , wherein the fluororesin is polyvinylidene fluoride. 31. The separator according to claim 1 , wherein a surface porosity of the surface layer is 80.7% or more to 84.5% or less.