Stackless fuel cell

What is claimed is: 1. A fuel cell, comprising: a catalyst coated membrane having: a proton exchange membrane; a cathode layer disposed on a first surface of the proton exchange membrane; and an anode layer disposed on an oppositely disposed second surface of the proton exchange membrane; at least one gas diffusion layer bonded to at least one of the cathode and anode layers of the catalyst coated membrane; at least one bonding layer substantially surrounding at least one of the catalyst coated membrane and the at least one gas diffusion layer, the at least one bonding layer being bonded to a portion of the proton exchange membrane, and wherein at least one outer edge of the catalyst coated membrane reaches or extends beyond an adjacent outer edge of the at least one bonding layer; a conductive adhesive layer adjacent to the gas diffusion layer; and at least one circuit bonded by the conductive adhesive layer to a portion of the gas diffusion layer and by the at least one bonding layer to a portion of the catalyst coated membrane. 2. The fuel cell of claim 1 , wherein the at least one circuit is a flex circuit that includes at least one gold-coated copper layer and a polyimide layer bonded to the at least one gold-coated copper layer. 3. The fuel cell of claim 1 , wherein the at least one bonding layer comprises an adhesive layer that is made from a B-staged acrylic monomer and solvent. 4. The fuel cell of claim 1 , further including at least one hole through the at least one circuit and extending to the at least one gas diffusion layer. 5. The fuel cell of claim 1 , wherein the catalyst coated membrane, the at least one gas diffusion layer, the at least one bonding layer, and the at least one circuit are formed as a single, laminated power-producing fuel cell. 6. The fuel cell of claim 1 , further including at least one sub gasket layer disposed between the proton exchange membrane and the at least one bonding layer, the at least one sub gasket layer substantially surrounding the catalyst coated membrane and the at least one gas diffusion layer, and wherein at least one outer edge of the catalyst coated membrane extends to or beyond an adjacent outer edge of the at least one sub gasket. 7. The fuel cell of claim 1 , wherein the at least one gas diffusion layer comprises: a first gas diffusion layer bonded to at least a portion of the cathode layer of the catalyst coated membrane; and a second gas diffusion layer bonded to at least a portion of the anode layer of the catalyst coated membrane. 8. The fuel cell of claim 7 , wherein the at least bonding layer comprises: a first bonding layer bonded to at least a portion of a first surface of the proton exchange membrane; and a second bonding layer bonded to at least a portion of a second surface of the proton exchange membrane. 9. The fuel cell of claim 8 , wherein the at least circuit comprises: a first circuit bonded to at least a portion of the first gas diffusion layer and the first bonding layer; and a second circuit bonded to at least a portion of a second gas diffusion layer and the second bonding layer. 10. The fuel cell of claim 1 , in combination with a second fuel cell, the fuel cells being a single laminate structure. 11. A fuel cell, comprising: an integrated catalyst coated membrane layer, including: a catalyst coated membrane layer, having a proton exchange membrane; a cathode catalyst layer formed onto a portion of the proton exchange membrane; an anode catalyst layer formed onto a portion of the proton exchange membrane; and at least one flex circuit embedded within at least a portion of the proton exchange membrane, the at least flex circuit including at least one gold-coated copper layer and a polyimide layer bonded to the at least one gold-coated copper layer; at least one gas diffusion layer disposed bonded to a portion of least one of the cathode layer, the anode layer, and the at least one flex circuit; at least one bonding layer substantially surrounding at least one of the integrated catalyst coated membrane and the at least one gas diffusion layer, the at least one bonding layer being bonded to a portion of the proton exchange membrane, and wherein at least one outer edge of the catalyst coated membrane layer reaches or extends beyond an adjacent outer edge of the at least one bonding layer; and a conductive adhesive layer disposed between and bonding together the at least one flex circuit and the gas diffusion layer. 12. The fuel cell of claim 11 , wherein: the at least one gold-coated copper layer includes a first gold-coated copper layer and a second gold-coated copper layer; and the first gold-coated copper layer is bonded to a first side of the polyimide layer and the second gold-coated copper layer is bonded to an opposing second side of the polyimide layer. 13. The fuel cell of claim 12 , wherein at least one hole is included in the at least one flex circuit, the at least one hole extending through the first gold-coated copper layer, the polyimide layer, and the second gold-coated copper layer. 14. The fuel cell of claim 13 , wherein the at least one hole is filled with the integrated membrane layer. 15. A method of manufacturing a fuel cell, the method comprising: forming a catalyst coated membrane having a cathode layer and an anode layer attached to opposing surfaces of a proton exchange membrane; disposing a conductive adhesive layer between an at least one gas diffusion layer and at least one circuit; bonding, with the conductive adhesive layer, the at least one gas diffusion layer to a portion of the at least one circuit; bonding at least one bonding layer to a portion of the proton exchange membrane such that the at least one bonding layer substantially surrounds at least one of the cathode layer, and the anode layer; bonding the at least one circuit to a portion of the at least one bonding layer such that: the at least one gas diffusion layer is disposed on at least one of the cathode layer and the anode layer; the at least one bonding layer substantially surrounds the at least one gas diffusion layer; and at least one outer edge of the catalyst coated membrane layer reaches or extends beyond an adjacent outer edge of the at least one bonding layer; and laminating the fuel cell in a single hot press process. 16. The method of claim 15 , wherein the conductive adhesive layer is disposed on the reactive side of the fuel cell. 17. The method of claim 15 , further including at least one hole through the at least one flex circuit, the hole extending to the at least one gas diffusion layer. 18. The method of claim 15 , further including disposing at least one sub gasket layer between the proton exchange membrane and the at least one bonding layer, the at least one sub gasket layer substantially surrounding the cathode layer, the anode layer, and the at least one gas diffusion layer. 19. The method of claim 15 , further including: bonding a first gas diffusion layer to at least a portion of the cathode layer; bonding a second gas diffusion layer to at least a portion of the anode layer; bonding a first bonding layer to at least a portion of a first surface of the proton exchange membrane; bonding a second bonding layer to at least a portion of a second surface of the proton exchange membrane; bonding a first circuit to at least a portion of the first gas diffusion layer and the first bonding layer; and bonding a second circuit to at least a portion of a second gas diffusion layer and the second bo