Pyroelectric sandwich thermal energy harvesters

What is claimed is: 1. A pyroelectric sandwich thermal energy harvester, comprising: first and second protective layers constructed of a thermally conductive material; first and second electrode layers positioned adjacent to the first and second protective layers, respectively, such that the first and second electrode layers are sandwiched between the first and second protective layers; and a pyroelectric layer sandwiched between the first and second electrode layers, the pyroelectric layer being poled to align a dipole moment perpendicular to the pyroelectric layer, wherein a thermal expansion coefficient of the first and second protective layers is larger than a thermal expansion coefficient of the pyroelectric layer. 2. The energy harvester of claim 1 , wherein the pyroelectric layer includes one or more of lithium tantalate, zinc oxide, lithium niobate, and lead zirconium titanate. 3. The energy harvester of claim 1 , wherein the pyroelectric layer is one of a polycrystalline ceramic, a single crystal material, an electroactive polymers, and a nanocomposite. 4. A pyroelectric power generator, comprising: a substrate; and at least one pyroelectric sandwich thermal energy harvester imbedded in the substrate, the pyroelectric sandwich thermal energy harvester comprising: first and second protective layers constructed of a thermally conductive material; first and second electrode layers positioned adjacent to the first and second protective layers, respectively such that the first and second electrode layers are sandwiched between the first and second protective layers; and a pyroelectric layer sandwiched between the two electrode layers, the pyroelectric layer being poled to align a dipole moment perpendicular to the pyroelectric layer, wherein a thermal expansion coefficient of the first and second protective layers is larger than a thermal expansion coefficient of the pyroelectric layer. 5. The pyroelectric power generator of claim 4 , further comprising an energy harvesting and storage circuit connected to the at least one pyroelectric sandwich thermal energy harvester. 6. The pyroelectric power generator of claim 5 , wherein the energy harvesting and storage circuit comprises at least one rectifier and at least one storage device. 7. The pyroelectric power generator of claim 6 , wherein the at least one storage device includes a capacitor or a battery. 8. The pyroelectric power generator of claim 4 , wherein the pyroelectric sandwich thermal energy harvester comprises two or more of the pyroelectric sandwich thermal energy harvesters connected together. 9. The pyroelectric power generator of claim 8 , wherein the two or more pyroelectric sandwich thermal energy harvesters are connected in parallel. 10. The pyroelectric power generator of claim 8 , wherein the two or more pyroelectric sandwich thermal energy harvesters are connected in series. 11. A method, comprising: providing a pyroelectric power generator, comprising: at least one pyroelectric sandwich thermal energy harvester, the pyroelectric sandwich thermal energy harvester comprising: first and second protective layers constructed of a thermally conductive material; first and second electrode layers adjacent to the first and second protective layers, respectively such that the first and second electrode layers are sandwiched between the first and second protective layers; and a pyroelectric layer sandwiched between the first and second electrode layers, the pyroelectric layer being poled to align a dipole moment perpendicular to the pyroelectric layer, wherein a thermal expansion coefficient of the first and second protective layers is larger than a thermal expansion coefficient of the pyroelectric layer; and an energy harvesting and storage circuit connected to the at least one pyroelectric sandwich thermal energy harvester; and coupling the pyroelectric power generator to a portion of a structure such that the pyroelectric power generator generates electric charge energy. 12. The method of claim 11 , wherein the structure is one or more of a space facility, an aircraft, a satellite, a vehicle, a building, a bridge, a pipe, a portable electronic device, and a solar cell. 13. The method of claim 11 , wherein the structure is a vehicle and the portion of the structure is an exhaust line.