Arrays of ultrathin silicon solar microcells

We claim: 1. A conformal solar cell device comprising: a plurality of composite solar microcells, each composite solar microcell comprising: a flexible substrate; a flexible semiconductor element disposed on the flexible substrate, the flexible semiconductor element comprising at least one active region; and an encapsulant material disposed over a portion of the flexible semiconductor element; and one or more flexible interconnects; wherein each of the one or more flexible interconnects is in electrical communication with a portion of each flexible semiconductor element of at least two adjacent composite solar microcells; and wherein the flexible semiconductor element of at least one composite solar microcell of the plurality of composite solar microcells has a thickness less than or equal to about 100 μm and includes an active region comprising solar-grade silicon or low-grade silicon. 2. The conformal solar cell device of claim 1 , wherein the low grade silicon has a metallic purity level less than 99.999999%. 3. The conformal solar cell device of claim 1 , further comprising a metal layer disposed on at least a portion of the flexible semiconductor element, wherein encapsulant material disposed over at least a portion of the metal layer. 4. The conformal solar cell device of claim 1 , wherein the flexible substrate and the encapsulant material position a neutral mechanical plane proximate to a portion of the active region of at least one flexible semiconductor element. 5. The conformal solar cell device of claim 4 , wherein the flexible substrate and the encapsulant material position the neutral mechanical plane proximate to a center of the at least one flexible semiconductor element. 6. The conformal solar cell device of claim 4 , wherein the low-grade silicon comprises silicon having a defect density that is greater than or equal to 10 16 per cm 3 . 7. The conformal solar cell device of claim 4 , having an efficiency that is greater than or equal to 15%. 8. The conformal solar cell device of claim 4 , wherein the thickness is between about 10 μm and about 75 μm, or between about 15 μm and about 40 μm. 9. The conformal solar cell device of claim 4 , wherein the thickness is less than about 50 μm. 10. The conformal solar cell device of claim 4 , wherein the thickness is less than about 25 μm. 11. The conformal solar cell device of claim 4 , wherein the flexible semiconductor element comprises an array of microbars. 12. The conformal solar cell device of claim 11 , wherein each microbar of the array of microbars has a thickness between about 0.1 μm and about 30 μm, a length between about 0.5 mm and about 5 cm, and a width between about 5 μm and about 1 mm. 13. The conformal solar cell device of claim 4 , having an optical transparency greater than or equal to about 40% in at least a portion of the visible light spectrum. 14. A conformal solar cell device comprising: a plurality of composite solar microcells, each composite solar microcell comprising: a flexible substrate; a flexible semiconductor element disposed on the flexible substrate, the flexible semiconductor element comprising at least one active region; and an encapsulant material disposed over a portion of the flexible semiconductor element; and at least one solar micro-concentrator disposed over at least one composite solar microcell of the plurality of composite solar microcells; and one or more flexible interconnects; wherein each of the one or more flexible interconnects is in electrical communication with a portion of each flexible semiconductor element of at least two adjacent composite solar microcells; and wherein the flexible semiconductor element of at least one composite solar microcell of the plurality of composite solar microcells has a thickness less than or equal to about 100 μm and includes an active region comprising solar-grade silicon or low-grade silicon.