Confined crystallization multilayer films

Having described the invention, the following is claimed: 1. A multilayer film comprising a first polymer layer comprising polyethylene oxide coextruded with and confined between second polymer layers comprising ethylene-co-acrylic acid, the first polymer layer having a thickness under confinement of the second polymer layers that provides the first polymer layer with high aspect ratio substantially crystalline lamellae, the high aspect ratio substantially crystalline lamellae having an aspect ratio of at least about 5, the multilayer film being selective to the diffusion of gases therethrough. 2. The multilayer film of claim 1 , the high aspect ratio substantially crystalline lamellae extending in a plane parallel to the first layer and the opposite second layers. 3. The multilayer film of claim 1 , the first polymer layer having an average thickness of about 10 nm to about 500 nm. 4. The multilayer film of claim 1 , comprising a plurality of extruded first polymer layers confined between a plurality of second polymer layers. 5. The multilayer film of claim 1 , the second polymer layer being immiscible or partially miscible with the first polymer layer. 6. The multilayer film of claim 1 , the high aspect ratio substantially crystalline lamellae having an aspect ratio of at least about 120. 7. The multilayer film of claim 1 , the second polymer layers having a higher melting point than the first polymer layer. 8. A multilayer film comprising a plurality of extruded first polymer layers comprising polyethylene oxide and a plurality of extruded second polymer layers comprising ethylene-co-acrylic acid, each first polymer layer being confined between second polymer layers, each first polymer layer having a thickness that provides high aspect ratio substantially crystalline lamellae, the high aspect ratio substantially crystalline lamellae having an aspect ratio of at least about 5, the multilayer film being selective to the diffusion of gases therethrough. 9. The multilayer film of claim 8 , the high aspect ratio substantially crystalline lamellae extending in a plane parallel to the plurality of extruded first polymer layers and the plurality of extruded second polymer layers. 10. The multilayer film of claim 8 , each first polymer layer having an average thickness of about 10 nm to about 500 nm. 11. The multilayer film of claim 8 , the plurality of extruded second polymer layers being immiscible or partially miscible with the plurality of extruded first polymer layers. 12. The multilayer film of claim 8 , the high aspect ratio substantially crystalline lamellae having an aspect ratio of at least about 120. 13. The multilayer film of claim 8 , the plurality of extruded second polymer layers having a higher melting point than the plurality of extruded first polymer layers. 14. A method of forming a confined crystallization multilayer film, the method comprising: coextruding a plurality of first polymer layers comprising polyethylene oxide and a plurality of second polymer layers comprising ethylene-co-acrylic acid so that each first polymer layer is sandwiched between second polymer layers, each first polymer layer comprising a high aspect ratio substantially crystalline lamellae, the high aspect ratio substantially crystalline lamellae having an aspect ratio of at least about 5, the multilayer film being selective to diffusion of gases therethrough. 15. The method of claim 14 , the high aspect ratio substantially crystalline lamellae extending in a plane parallel to the plurality of first polymer layers and the plurality of second polymer layers. 16. The method of claim 14 , each first polymer layer having an average thickness of about 10 nm to about 500 nm. 17. The method of claim 14 , the plurality of second polymer layers being immiscible or partially miscible with the plurality of first polymer layers. 18. A multilayer food packaging film comprising: a first polymer layer comprising polyethylene oxide coextruded with and confined between second polymer layers comprising ethylene-co-acrylic acid, the first polymer layer having a thickness that provides the first polymer layer with high aspect ratio crystalline lamellae, the crystalline lamellae having an aspect ratio of at least about 5, the first polymer layer having a lower melting point than the second polymer layers, the multilayer food packaging film for enclosing food and being selective to the diffusion of gases there through.