Displays with direct-lit backlight units

What is claimed is: 1. A display, comprising: a plurality of pixels; and a backlight configured to produce backlight illumination for the plurality of pixels, wherein the backlight comprises: a printed circuit board; a plurality of light-emitting diodes mounted on the printed circuit board; at least one light spreading layer formed over the printed circuit board that spreads light received from the plurality of light-emitting diodes; a partially reflective layer formed over the at least one light spreading layer; a color conversion layer formed over the partially reflective layer, wherein the color conversion layer comprises a phosphor layer, an optical film formed over the phosphor layer, and optical-path-length-reducing structures that extend from a lower surface of the optical film into the phosphor layer and wherein the optical-path-length-reducing structures have a reflectance that is greater than 30%, wherein the optical-path-length-reducing structures are formed in an interconnected web that defines a plurality of cells for a phosphor material of the phosphor layer, and wherein the interconnected web includes a plurality of openings to allow flow between the cells; and a collimating layer formed over the color conversion layer. 2. The display defined in claim 1 , wherein the backlight further comprises: encapsulant that covers each of the light-emitting diodes; and an additional light spreading layer that covers the light-emitting diodes and that directly contacts the encapsulant. 3. The display defined in claim 1 , wherein the backlight further comprises a radiative cooling coating on a lower surface of the printed circuit board. 4. The display defined in claim 1 , wherein the backlight further comprises: a brightness enhancement film, wherein the collimating layer is interposed between the color conversion layer and the brightness enhancement film; and a diffuser layer, wherein the brightness enhancement film is interposed between the collimating layer and the diffuser layer. 5. The display defined in claim 4 , wherein the brightness enhancement film and the collimating layer are laminated to a low-index layer that is interposed between the brightness enhancement film and the collimating layer. 6. The display defined in claim 4 , wherein the backlight further comprises: an array of microlenses formed on a lower surface of the partially reflective layer. 7. The display defined in claim 4 , wherein the backlight further comprises: a substrate interposed between the partially reflective layer and the light-emitting diodes; and an array of microlenses formed on an upper surface of the substrate. 8. The display defined in claim 4 , wherein the collimating layer is laminated to a low-index layer, wherein the low-index layer is interposed between the collimating layer and an additional brightness-enhancement film. 9. The display defined in claim 1 , wherein the plurality of light-emitting diodes are mounted to an upper surface of the printed circuit board, wherein a diffusive reflective material is formed on the upper surface of the printed circuit board, and wherein a specular reflective material is formed in a ring around each light-emitting diode on the upper surface of the printed circuit board. 10. The display defined in claim 1 , wherein both portions of the optical-path-length-reducing structures and portions of the optical film are in direct contact with the phosphor layer and wherein the reflectance of the optical-path-length-reducing structures is greater than a reflectance of the optical film. 11. A display, comprising: a plurality of pixels; and a backlight configured to produce backlight illumination for the plurality of pixels, wherein the backlight comprises: a printed circuit board; a plurality of light-emitting diodes mounted on the printed circuit board; a plurality of reflective light leakage promotion structures on the printed circuit board, wherein each reflective light leakage promotion structure is interposed between an adjacent pair of light-emitting diodes; at least one light spreading layer formed over the printed circuit board that spreads light received from the plurality of light-emitting diodes; a color conversion layer formed over the at least one light spreading layer; a collimating layer formed over the color conversion layer; a first brightness enhancement film formed over the color conversion layer, wherein the first brightness enhancement film includes a first plurality of elongated protrusions that extend in a first direction, wherein the collimating layer is interposed between the first brightness enhancement film and the color conversion layer; a second brightness enhancement film formed over the color conversion layer, wherein the second brightness enhancement film includes a second plurality of elongated protrusions that extend in a second direction that is orthogonal to the first direction and wherein the first brightness enhancement film is interposed between the second brightness enhancement film and the collimating layer; and a diffuser layer formed over the first and second brightness enhancement films. 12. The display defined in claim 11 , wherein the backlight further comprises: a partially reflective layer formed over the at least one light spreading layer, wherein the partially reflective layer comprises an additional diffuser layer and a multi-Bragg reflector. 13. The display defined in claim 12 , wherein the color conversion layer includes a phosphor layer and an additional partially reflective layer. 14. The display defined in claim 12 , wherein the partially reflective layer and the color conversion layer are laminated together. 15. The display defined in claim 11 , wherein the backlight further comprises: a low-index layer interposed between the collimating layer and the first brightness enhancement film, wherein the collimating layer is laminated to a lower surface of the low-index layer and the first brightness enhancement film is laminated to an upper surface of the low-index layer. 16. The display defined in claim 11 , wherein the color conversion layer comprises a phosphor layer that includes optical-path-length-reducing structures. 17. The display defined in claim 11 , wherein the at least one light spreading layer comprises: a first light spreading layer that receives light from the plurality of light-emitting diodes and has a third plurality of elongated protrusions that extend in a third direction; and a second light spreading layer that receives light from the first light spreading layer and has a fourth plurality of elongated protrusions that extend in a fourth direction that is perpendicular to the third direction. 18. The display defined in claim 11 , wherein the backlight further comprises: encapsulant, wherein each light-emitting diode is covered by a respective encapsulant portion and wherein each encapsulant portion has a geometric center that is offset relative to its respective light-emitting diode. 19. The display defined in claim 11 , wherein the backlight further comprises encapsulant and wherein each light-emitting diode is covered by a respective encapsulant portion that has a curved upper surface and that includes a scattering dopant. 20. A display, comprising: a plurality of pixels; and a backlight configured to produce backlight illumination for the plurality of pixels, wherein the backlight comprises: a printed circuit board; a plurality of light-emitting diodes mounted on the printe