Luminescent solar concentrators and related methods of manufacturing

What is claimed is: 1. A luminescent solar concentrator comprising: a waveguide configured to trap light incident on a first surface via total internal reflection, the waveguide comprising: embedded luminophores configured to absorb at least a portion of trapped light and emit photoluminesced light; and at least one embedded planar cell disposed on a second surface opposite the first surface, the at least one embedded planar cell configured to absorb and convert at least a portion of the photoluminesced light to an electric signal; a subcell configured to absorb and convert the at least the portion of the trapped light and the at least the portion of the photoluminesced light to the electric signal; and a first selectively-reflective mirror and a second selectively-reflective mirror configured to filter light of specific wavelengths, wherein: the first selectively-reflective mirror is configured to filter light before such that passed light is incident on the waveguide; and the second selectively-reflective mirror is disposed between the waveguide and the subcell. 2. The luminescent solar concentrator of claim 1 , wherein the subcell comprises a silicon subcell. 3. The luminescent solar concentrator of claim 1 , further comprising a plurality of glass slides. 4. The luminescent solar concentrator of claim 3 , wherein the luminescent solar concentrator is constructed with an air gap between the waveguide and the first selectively-reflective mirror. 5. The luminescent solar concentrator of claim 4 , wherein the luminescent solar concentrator is constructed with an air gap between the waveguide and the second selectively-reflective mirror. 6. The luminescent solar concentrator of claim 1 , wherein at least one of the first selectively-reflective mirror and the second selectively-reflective mirror comprises a structure selected from the group consisting of a metasurface mirror, a polymeric stack filter, a Bragg grating, and a dielectric stack. 7. The luminescent solar concentrator of claim 1 , wherein at least one of the first selectively-reflective mirror and the second selectively-reflective mirror comprises a high contrast grating metasurface mirror. 8. The luminescent solar concentrator of claim 7 , wherein the high contrast grating metasurface mirror comprises a hexagonal array of AlSb cylindrical pillars patterned on a glass substrate. 9. The luminescent solar concentrator of claim 8 , wherein the hexagonal array of AlSb cylindrical pillars has a pitch of about 475-515 nm and the AlSb cylindrical pillars have thicknesses of about 85-125 nm and radii of about 80-120 nm. 10. The luminescent solar concentrator of claim 1 , wherein the first selectively-reflective mirror comprises a high contrast grating metasurface mirror and the second selectively-reflective mirror comprises a dielectric stack. 11. The luminescent solar concentrator of claim 1 , wherein the at least one embedded planar cell comprises a cell selected from the group consisting of an InGaP cell and a GaAs cell. 12. The luminescent solar concentrator of claim 11 , wherein the at least one embedded planar cell comprises an array of embedded planar cells. 13. The luminescent solar concentrator of claim 11 , wherein the at least one embedded planar cell comprises a bifacial cell. 14. The luminescent solar concentrator of claim 1 , wherein the waveguide comprises a polylaurylmethacrylate. 15. The luminescent solar concentrator of claim 1 , wherein the waveguide comprises a material selected from the group consisting of polymethyl methacrylate, polydimethylsiloxane, and ethylene-vinyl acetate. 16. The luminescent solar concentrator of claim 1 , wherein the embedded luminophores comprise CdSe/CdS quantum dots. 17. The luminescent solar concentrator of claim 1 , wherein the embedded luminophores comprise luminophores selected from the group consisting of InP quantum dots, Si quantum dots, and nanorods. 18. The luminescent solar concentrator of claim 1 , wherein the emitted photoluminesced light is of a longer wavelength than the trapped light absorbed by the embedded luminophores.