Metal-air battery

What is claimed is: 1. A metal-air battery comprising: a gas diffusion layer; a first cathode and a second cathode spaced apart from each other, using oxygen as a cathode active material and disposed on opposite surfaces of the gas diffusion layer, respectively; an ion conducting membrane surrounding the first cathode, the gas diffusion layer and the second cathode and disposed on each of the first cathode and the second cathode, wherein the ion conducting membrane comprises a folded portion, which is folded by about 180° and not contacting the gas diffusion layer, the first cathode and the second cathode; and an anode surrounding the ion conducting membrane and disposed on the ion conducting membrane, wherein the anode comprises a folded portion, which is folded by about 180°, wherein the folded portion of the anode is folded in a same direction as the folded portion of the ion conducting membrane. 2. The metal-air battery of claim 1 , further comprising: an interlayer comprising a reinforcing agent, wherein the interlayer contacts the folded portion of the ion conducting membrane. 3. The metal-air battery of claim 2 , wherein the interlayer comprises a coating layer disposed on the folded portion of the ion conducting membrane. 4. The metal-air battery of claim 2 , wherein the interlayer is disposed between the folded portion of the ion conducting membrane and the folded portion of the anode. 5. The metal-air battery of claim 2 , wherein the interlayer is disposed on an inner surface of the folded portion of the ion conducting membrane, which faces the gas diffusion layer. 6. The metal-air battery of claim 1 , wherein the metal-air battery comprises: a plurality of gas diffusion layers spaced apart from one another in a thickness direction of the metal-air battery wherein the first cathode and the second cathode are disposed on opposite surfaces of each of the gas diffusion layers, respectively, wherein the ion conducting membrane is repeatedly folded by about 180° to allow a first surface thereof to contact the first and second cathodes on each of the gas diffusion layers, the anode is repeatedly folded by about 180° in a same pattern as the ion conducting membrane, to contact a second surface of the ion conducting membrane, which is opposite to the second surface of the ion conducting membrane, and the anode further comprises a portion folded by 180° and disposed between two adjacent gas diffusion layers. 7. The metal-air battery of claim 6 , further comprising: an interlayer comprising a reinforcing agent, wherein the interlayer contacts the folded portion of the ion conducting membrane. 8. The metal-air battery of claim 2 , wherein the interlayer has a thickness in a range of about 5 μm to about 500 μm. 9. The metal-air battery of claim 3 , wherein a width between end portions of the interlayer is in a range of about 10 μm to about 1000 μm. 10. The metal-air battery of claim 2 , wherein the reinforcing agent comprises an elastic polymer. 11. The metal-air battery of claim 2 , wherein the reinforcing agent comprises at least one selected from a polysiloxane resin, a phenoxy resin, a polyester resin, a polyurethane resin, a polyimide resin, a polysulfide resin, a siloxane-modified polyimide resin, polybutadiene, polypropylene, an isobutylene-isoprene copolymer, a styrene-butadiene-styrene copolymer, a styrene-ethylene-butylene-styrene copolymer, a polyacetal resin, a polyvinyl butyral resin, a polyvinyl acetal resin, polyamide resin, an acrylonitrile-butadiene copolymer, an acrylonitrile-butadiene-acrylic acid copolymer, an acrylonitrile-butadiene-styrene copolymer, polyvinyl acetate, nylon, a (meth)acrylic resin, (meth)acrylic rubber, an urethane (meth)acrylate copolymer, an acryl copolymer, and a modified polymer thereof. 12. The metal-air battery of claim 1 , wherein the ion conducting membrane comprises a gas and moisture barrier membrane. 13. A metal-air membrane comprising: a gas diffusion layer; a cathode surrounding the gas diffusion layer and disposed on each of opposite surfaces of the gas diffusion layer, wherein the cathode comprises a folded portion, which is folded by about 180° and not contacting the gas diffusion layer; an ion conducting membrane surrounding the cathode and disposed on opposite surfaces of the cathode, wherein the ion conducting membrane comprise a folded portion, which is folded by about 180° in a same direction as the folded portion of the cathode; an anode surrounding the ion conducting membrane and disposed on opposite surfaces of the ion conducting membrane, wherein the anode comprises a folded portion, which is folded by about 180° in a same direction as the folded portion of the ion conducting membrane; and an impervious seal structure interfacing with the ion conducting membrane to enclose the anode; an interlayer comprising a reinforcing agent, wherein the interlayer is disposed to contact the folded portion of the ion conducting membrane and not to contact the gas diffusion layer, wherein the reinforcing agent comprises a sealant which prevents a crack of the ion conducting membrane. 14. The metal-air battery of claim 13 , wherein the interlayer is disposed between the folded portion of the ion conducting membrane and the folded portion of the anode. 15. The metal-air battery of claim 13 , wherein the interlayer is disposed between the folded portion of the ion conducting membrane and the folded portion of the cathode. 16. The metal-air battery of claim 13 , wherein the metal-air battery comprises: a plurality of gas diffusion layers spaced apart from one another in a thickness direction of the metal-air battery, wherein the cathode is repeatedly folded by about 180° to allow a first surface thereof to contact opposite surfaces of each of the gas diffusion layers, the ion conducting membrane is repeatedly folded by 180° in a same pattern as the cathode, to contact a second surface of the cathode, which is opposite to the first surface of the cathode the anode is repeatedly folded by about 180° in a same pattern as the ion conducting membrane, to contact the ion conducting membrane, and the anode further comprises a portion folded by about 180° and between two adjacent gas diffusion layers. 17. A metal-air battery comprising: a gas diffusion layer; a cathode surrounding the gas diffusion layer and disposed on opposite surfaces of the gas diffusion layer, wherein the cathode comprises a folded portion which is folded by about 180°; an ion conducting membrane surrounding the cathode and disposed on opposite surfaces of the cathode, wherein the ion conducting membrane comprises a folded portion, which is folded by about 180° in a same direction as the folded portion of the cathode; and a first anode and a second anode, which are spaced apart from each other, disposed on opposite surfaces of the gas diffusion layer, respectively, and not contacting the folded portion of the ion conducting membrane; and an anode current collector surrounding the first anode, the ion conducting membrane and the second anode, and disposed on outer surfaces of the first anode and the second anode, wherein the anode current collector comprises a folded portion, which is folded by about 180°, wherein the anode current collector contacts the ion conducting membrane in the folded portion of the ion conducting membrane. 18. The metal-air battery of claim 17 , further comprising: an interlayer comprising a reinforcing agent, wherein the interlayer contacts the folded portion of the ion conducting membra