Quantum dot films, lighting devices, and lighting methods

What is claimed is: 1. A light source unit (LSU), comprising: at least one primary light source that emits primary light; a light guide panel optically coupled to the at least one primary light source; a remote phosphor film comprising at least two matrix materials having different refractive indexes and two populations of light emitting quantum dots (QDs) embedded in the at least two matrix materials; wherein the primary light transmits through the light guide panel and into the remote phosphor film, refracts within the remote phosphor film, and at least a portion of the primary light is absorbed by the two populations of QDs and reemitted by the QDs as first and second secondary light. 2. The LSU of claim 1 , wherein: the light guide panel has a first refractive index; and the at least two matrix materials include a first matrix material continuously distributed and having a second refractive index less than the second refractive index, and a second matrix material discretely distributed and having a third refractive index less than the second refractive index. 3. The LSU of claim 1 , further comprising an image generating unit (IGU) coupled to the LSU, wherein the LSU is configured to transmit processed light to the IGU. 4. The LSU of claim 1 , further comprising at least one reflector film configured to promote recycling of the primary light back into the remote phosphor film, such that the portion of the primary light has an increased optical path length with respect to the remote phosphor film to cause increased primary light absorption by the QDs to enhance secondary light emission. 5. The LSU of claim 4 , wherein the at least one reflector film comprises: a first reflector film configured to reflect a first portion of the primary light towards the remote phosphor film; and a second reflector film configured to reflect a second portion of the primary light towards the remote phosphor film; wherein the first portion of the primary light and the second portion of the primary light have different incident angle ranges towards the at least one reflector film. 6. The LSU of claim 4 , wherein the at least one reflector film further comprises: light extraction features; brightness-enhancing features; or at least one reflective polarizer brightness enhancing film. 7. The LSU of claim 4 , wherein the light guide panel is disposed between the remote phosphor film and the at least one reflector film. 8. The LSU of claim 7 , further comprising an anti-coupling feature between the light guide panel and the remote phosphor film to prevent excessive optical coupling between the light guide panel and the remote phosphor film. 9. The LSU of claim 7 , wherein the light guide panel comprises scattering or diffuser features at surfaces of the light guide panel. 10. The LSU of claim 7 , wherein the light guide panel comprises scattering or diffuser features embedded in the optical cavity. 11. A method of forming a light source unit (LSU), comprising: providing at least one primary light source that emits primary light; providing a light guide panel having optically coupled to the at least one primary light source; providing a remote phosphor film comprising at least two matrix materials having different refractive indexes and two populations of light emitting quantum dots (QDs) embedded in the at least two matrix materials; such that the primary light is able to transmit through the light guide panel and into the remote phosphor film, and refract within the remote phosphor film, and at least a portion of the primary light is able to be absorbed by the two populations of QDs and reemitted by the QDs as first and second secondary light. 12. The method of claim 11 , wherein: the light guide panel has a first refractive index; and the at least two matrix materials include a first matrix material continuously distributed and having a second refractive index less than the second refractive index, and a second matrix material discretely distributed and having a third refractive index less than the second refractive index. 13. The method of claim 11 , further comprising: providing an image generating unit (IGU) coupled to the LSU, wherein the LSU is configured to transmit processed light to the IGU. 14. The method of claim 11 , further comprising: providing at least one reflector film configured to promote recycling of the primary light back into the remote phosphor film, such that the portion of the primary light has an increased optical path length with respect to the remote phosphor film to cause increased primary light absorption by the QDs to enhance secondary light emission. 15. The method of claim 14 , wherein providing at least one reflector film comprises: providing a first reflector film configured to reflect a first portion of the primary light towards the remote phosphor film; and providing a second reflector film configured to reflect a second portion of the primary light towards the remote phosphor film; wherein the first portion of the primary light and the second portion of the primary light have different incident angle ranges towards the at least one reflector film. 16. The method of claim 14 , wherein providing at least one reflector film comprises: providing at least one of light extraction features, brightness-enhancing features, and at least one reflective polarizer brightness enhancing film. 17. The method of claim 14 , further comprising: providing the light guide panel is disposed between the remote phosphor film and the at least one reflector film. 18. The method of claim 17 , further comprising: providing an anti-coupling feature between the light guide panel and the remote phosphor film to prevent excessive optical coupling between the light guide panel and the remote phosphor film. 19. The method of claim 17 , wherein providing the light guide panel comprises: providing scattering or diffuser features at surfaces of the light guide panel. 20. The method of claim 17 , wherein providing the light guide panel comprises: providing scattering or diffuser features embedded in the light guide panel.