Packaging material for power storage device and power storage device using the same

What is claimed is: 1. A packaging material for a power storage device, comprising: a structure made up a cover layer, a barrier layer, a sealant adhesive layer, and a sealant layer laminated in this general order, wherein the sealant layer is configured to be a layer, which is innermost to the power storage device; wherein the barrier layer includes an aluminum foil layer and an anticorrosion treatment layer that is provided to a sealant-layer-side surface of the aluminum foil layer and directly physically contacts the sealant adhesive layer; wherein the aluminum foil layer in a state of being provided with the anticorrosion treatment layer has a 60° glossiness that is 590 or less in both MD, which is a direction of extrusion, and TD, which is a direction vertical to MD; and wherein the aluminum foil layer in a state of being provided with the anticorrosion treatment layer has a difference in 60° glossiness between MD and TD that is 55 or less. 2. The packaging material for a power storage device of claim 1 , wherein: the aluminum foil layer in a state of being provided with the anticorrosion treatment layer has a 60° glossiness that is 120 or less in both MD and TD; and the aluminum foil layer in a state of being provided with the anticorrosion treatment layer has a difference in 60° glossiness between MD and TD that is 40 or less. 3. A packaged power storage device, comprising: (A) a power storage device comprising battery elements including electrodes; leads extending from the respective electrodes; and (B) a container holding the power storage device, wherein the container is formed from the packaging material of claim 1 so that the sealant layer is a layer of the packaging material, which is innermost to the power storage device. 4. The packaging material for a power storage device of claim 1 , comprising: wherein the sealant-layer-side surface has a surface roughness in a range of 4.6 μm or more to 10.0 μm or less in terms of arithmetic mean height Sa wherein the sealant-layer-side of the aluminum foil layer is a surface of the aluminum foil layer configured to face the power storage device. 5. A packaged power storage device, comprising: (A) a power storage device comprising battery elements including electrodes; leads extending from the respective electrodes; and (B) a container holding the power storage device, wherein the container is formed from the packaging material of claim 4 so that the sealant layer is a layer of the packaging material, which is innermost to the power storage device. 6. The packaging material of claim 1 , wherein the cover layer consists of a substrate layer and an adhesive layer, which is in direct physical contact with each of the substrate layer and the barrier layer. 7. The packaging material of claim 4 , wherein the anticorrosion treatment layer comprises a cerium oxide sol containing cerium oxide particles having a mean size of 100 nm or less and wherein a thickness of the anticorrosion treatment layer is 20 nm to 500 nm. 8. The packaging material of claim 7 , wherein the sealant adhesive layer comprises an acid modified polyolefin-based resin and a thickness of the sealant adhesive layer is from 20 μm to 40 μm. 9. The packaging material of claim 4 , wherein the anticorrosion treatment layer comprises a blend of phosphoric acid and a chromium compound into a resin binder and wherein a thickness of the anticorrosion treatment layer is 20 nm to 500 nm. 10. The packaging material of claim 9 , wherein the sealant adhesive layer comprises an acid modified polyolefin-based resin and a thickness of the sealant adhesive layer is from 20 μm to 40 μm.