Glass roof shingle

The invention claimed is: 1. A photovoltaic roof shingle, comprising: a shingle cover layer comprised of a chemically tempered glass having a thickness from about 0.7 mm (0.03 inches) to about 7 mm (0.3 inches) and having a depth of compression of at least 100 microns (0.004 inches) and a surface compressive stress of at least 300 MPa (43,500 psi); a shingle base layer comprised of glass having a thickness from about 100 microns (0.004 inches) to 2.5 mm (0.1 inches) disposed underneath the shingle cover layer, wherein opposing surfaces of the shingle cover layer and the shingle base layer define a cavity; a photovoltaic module disposed within the cavity, the photovoltaic module comprising an array of solar cells, the array of solar cells being configured for use at a select wavelength range; and a seal area formed between the shingle base layer and the shingle cover layer and around the cavity to control ingress of moisture into the cavity. 2. The photovoltaic roof shingle of claim 1 , wherein the photovoltaic module comprises a crystalline silicon photovoltaic module. 3. The photovoltaic roof shingle of claim 1 , wherein the photovoltaic module further comprises a polymer sheet covering a surface of the array of solar cells and is disposed between the photovoltaic module and the shingle cover layer. 4. The photovoltaic roof shingle of claim 1 , further comprising a thin film layer formed on a top surface of the shingle cover layer. 5. The photovoltaic roof shingle of claim 1 , wherein at least one of a top surface and a bottom surface of the shingle cover layer is contoured. 6. The photovoltaic roof shingle of claim 1 , wherein the shingle cover layer has an upper surface and at least a part of the upper surface of the shingle cover layer incorporates glass particles. 7. The photovoltaic roof shingle of claim 6 , wherein the glass particles have a root mean square average size of the glass particles, along a longest dimension of the glass particles, from about 300 microns (0.01 inches) to about 2 mm (0.08 inches). 8. The photovoltaic roof shingle of claim 6 , wherein the glass particles are thermally fused with the shingle cover layer. 9. A photovoltaic roof shingle, comprising: a shingle cover layer comprised of a thermally treated glass having a thickness from about 0.7 mm (0.03 inches) to about 7 mm (0.3 inches) and having a surface compressive stress of at least 50 MPa (7,250 psi); a shingle base layer comprised of glass having a thickness from about 100 microns (0.004 inches) to 2.5 mm (0.1 inches) disposed underneath the shingle cover layer, wherein opposing surfaces of the shingle cover layer and the shingle base layer define a cavity; a photovoltaic module disposed within the cavity, the photovoltaic module comprising an array of solar cells, the array of solar cells being configured for use at a select wavelength range; and a seal area formed between the shingle base layer and the shingle cover layer and around the cavity to control ingress of moisture into the cavity. 10. The photovoltaic roof shingle of claim 9 , wherein the photovoltaic module comprises a crystalline silicon photovoltaic module. 11. The photovoltaic roof shingle of claim 9 , wherein the photovoltaic module further comprises a polymer sheet covering a surface of the array of solar cells and is disposed between the photovoltaic module and the shingle cover layer. 12. The photovoltaic roof shingle of claim 9 , further comprising a thin film layer formed on a top surface of the shingle cover layer. 13. The photovoltaic roof shingle of claim 9 , wherein at least one of a top surface and a bottom surface of the shingle cover layer is contoured. 14. The photovoltaic roof shingle of claim 9 , wherein the shingle cover layer has an upper surface and at least a part of the upper surface of the shingle cover layer incorporates glass particles. 15. The photovoltaic roof shingle of claim 14 , wherein the glass particles have a root mean square average size of the glass particles, along a longest dimension of the glass particles, from about 300 microns (0.01 inches) to about 2 mm (0.08 inches). 16. The photovoltaic roof shingle of claim 14 , wherein the glass particles are thermally fused with the shingle cover layer.