Air battery and air battery stack

The invention claimed is: 1. An air battery comprising a power generation body and a container, the power generation body comprising: a laminate in which a negative electrode, a separator, a positive electrode having a catalyst layer and a positive electrode current collector, and an oxygen diffusion membrane are laminated in this order; and an electrolyte being in contact with the negative electrode, the separator and the positive electrode, wherein one of main surfaces of the oxygen diffusion membrane is arranged facing one of main surfaces of the positive electrode current collector; at least a part of a peripheral edge part of the oxygen diffusion membrane is in contact with atmospheric air; and the battery satisfies at least one of the following two conditions, (1) the power generation body has a solution comprising the electrolyte and a solvent; and a contact angle of the solvent against a surface of the oxygen diffusion membrane is 90° or more, and (2) the power generation body has a solution comprising the electrolyte, a solvent and a gelling agent; and wherein a part of a peripheral edge part of the oxygen diffusion membrane protrudes outward through an opening of the container. 2. The air battery according to claim 1 , wherein the power generation body has a solution comprising the electrolyte and a solvent; and a contact angle of the solvent against a surface of the oxygen diffusion membrane is 150° or more. 3. The air battery according to claim 1 , wherein the negative electrode has a negative electrode active material; and the negative electrode active material is at least one element selected from the group consisting of hydrogen, lithium, sodium, magnesium, aluminum, potassium, calcium, iron and zinc. 4. The air battery according to claim 1 , wherein the catalyst layer comprises manganese dioxide or platinum. 5. The air battery according to claim 1 , wherein the catalyst layer comprises a perovskite-type mixed oxide represented by ABO 3 wherein an A site comprises at least two atoms selected from the group consisting of La, Sr and Ca, and a B site comprises at least one atom selected from the group consisting of Mn, Fe, Cr and Co. 6. The air battery according to claim 1 , further comprising a positive electrode for charge. 7. The air battery according to claim 1 , being an air secondary battery. 8. The air battery according to claim 1 , wherein a second positive electrode having a second catalyst layer and a second positive electrode current collector, a second separator, and a second negative electrode are further arranged in this order on an opposite side of the oxygen diffusion membrane to the side thereof facing the positive electrode. 9. An air battery stack, having two or more of the air batteries according to claim 1 , wherein the two or more of the air batteries are mutually laminated in a lamination direction of the laminates. 10. The air battery according to claim 1 , wherein the laminate is in sheet form and wound. 11. An air battery comprising a power generation body and a container, the power generation body comprising: a laminate in which a negative electrode, a separator, a positive electrode having a catalyst layer and a positive electrode current collector, and an oxygen diffusion membrane are laminated in this order; and an electrolyte being in contact with the negative electrode, the separator and the positive electrode, wherein one of two opposing main surfaces of the oxygen diffusion membrane is arranged facing one of main surfaces of the positive electrode current collector; at least a part of a peripheral edge part of the oxygen diffusion membrane is in contact with atmospheric air; and the battery satisfies at least one of the following two conditions, (1) the power generation body has a solution comprising the electrolyte and a solvent; and a contact angle of the solvent against a surface of the oxygen diffusion membrane is 90° or more, and (2) the power generation body has a solution comprising the electrolyte, a solvent and a gelling agent; and wherein at least one entire side surface other than the main surfaces of the oxygen diffusion membrane is exposed through an opening of the container.