Enhanced windshield display for vehicles

What is claimed is: 1 . An autonomous vehicle comprising: a body having a cabin; a window including inner and outer layers of glass on an inside and an outside, respectively, of the window, the window further including: 1) a first layer of polymer material between the inner and outer layers of glass, at least a portion of the first layer of polymer material including perovskite nanocrystals that are activated by UV light in the range of 340 nm-380 nm, and emit visible light having a wavelength in the range of 450 nm-750 nm, and: 2) a second layer of polymer material between the outer layer of glass and the first layer of polymer material, wherein at least a portion of the second layer of polymer material blocks UV light having a wavelength of 400 nm or less to prevent activation of the perovskite nanocrystals by UV sunlight that is incident on the outer layer of glass; and a projector mounted in the cabin, wherein the projector is configured to project UV light having a wavelength in the range of 340 nm-380 nm onto the inside of the window to selectively activate the perovskite crystals and form illuminated images on the window that are visible from inside the cabin. 2 . The autonomous vehicle of claim 1 , wherein: the projector includes first, second, and third light sources that project light having frequencies of 340 nm, 360 nm, and 380 nm, respectively, onto the inside of the window. 3 . The autonomous vehicle of claim 2 , wherein: each of the first, second, and third light sources comprise lasers. 4 . The autonomous vehicle of claim 1 , wherein: the perovskite nanocrystals are several nanometers in size or less, on average. 5 . The autonomous vehicle of claim 1 , wherein: the first layer of polymer material includes: 1) first perovskite nanocrystals that are activated by UV light of a first UV wavelength and emit blue light; 2) second perovskite crystals that are activated by UV light of a second UV wavelength and emit green light; 3) third perovskite crystals that are activated by UV light of a third wavelength and emit red light; and wherein the projector is configured to selectively project at the first, second, and third UV wavelengths onto the inside of the window. 6 . The autonomous vehicle of claim 5 , wherein: the first UV wavelength is 330 nm-350 nm, the second UV wavelength is 350 nm-370 nm, and the third UV wavelength is 370 nm-390 nm. 7 . The autonomous vehicle of claim 6 , wherein: the first UV wavelength is 340 nm, the second UV wavelength is 360 nm, and the third UV wavelength is 380 nm. 8 . The autonomous vehicle of claim 7 , wherein: the blue light has a wavelength of 450 nm, the green light has a wavelength of 540 nm, and the red light has a wavelength of 750 nm. 9 . The autonomous vehicle of claim 1 , wherein: the window includes a layer of acoustic polyvinyl butyral (PVB) disposed between the first and second layers of polymer material to provide sound insulation. 10 . The autonomous vehicle of claim 1 , wherein: the perovskite nanocrystals of at least one of the first and second layers of polymer material are compounded into the polymer material prior to extruding the compounded material to form a sheet. 11 . The autonomous vehicle of claim 1 , wherein: at least one of the first and second layers of polymer material comprise a main layer of polymer material that is free of perovskite nanocrystals, and the perovskite nanocrystals are disposed in a layer of material disposed on at least one side of the main layer of polymer material. 12 . A vehicle comprising: a body having a cabin; a window including inner and outer layers of glass on an inside and an outside, respectively, of the window, the window further including: 1) a first layer of polymer material between the inner and outer layers of glass, at least a portion of the first layer of polymer material including perovskite crystals that are activated by UV light having first, second, and third wavelengths, and emit blue, green, and red visible light, respectively, and: 2) a second layer of polymer material between the outer layer of glass and the first layer of polymer material wherein at least a portion of the second layer of polymer material blocks UV light having a wavelength of 400 nm or less to prevent activation of the perovskite crystals by UV light from sunlight that is incident on the outer layer of glass; and a projector mounted in the cabin, wherein the projector is configured to project UV light having the first, second, and third wavelengths onto the inside of the window to selectively activate the perovskite crystals and form an illuminated image on the window that is visible from inside the cabin, wherein portions of the illuminated image are formed by blue, green, and red light emitted by the perovskite crystals. 13 . The vehicle of claim 12 , wherein: the UV light from the projector is in the range of 340 nm-380 nm. 14 . The vehicle of claim 13 , wherein: the projector includes first, second, and third light sources that project light having frequencies of 340 nm, 360 nm, and 380 nm, respectively, onto the inside of the window. 15 . The vehicle of claim 12 , wherein: the first UV wavelength is 330 nm-350 nm, the second UV wavelength is 350 nm-370 nm, and the third UV wavelength is 370 nm-390 nm. 16 . The vehicle of claim 15 , wherein: the first UV wavelength is 340 nm, the second UV wavelength is 360 nm, and the third UV wavelength is 380 nm. 17 . The vehicle of claim 12 , wherein: the window comprises a windshield; the vehicle includes a rearview mirror; and the projector is integrated into the rearview mirror to project light onto an inside surface of the windshield. 18 . The vehicle of claim 12 , wherein: the body includes a roof structure; the window comprises roof glass extending over at least a portion of the cabin; the projector is mounted to the roof structure to project light onto a lower side of the roof glass. 19 . The vehicle of claim 12 , wherein: the window comprise a plurality of windows selected from the group consisting of a windshield, a rear window, roof glass, a right side window, and a left side window; and the projector is configured to project light onto the plurality of windows. 20 . A method of providing an illuminated image on a window of a vehicle, the method comprising: providing the vehicle with a window including inner and outer layers of glass on an inside and an outside, respectively, of the window, the window further including: 1) a first layer of polymer material between the inner and outer layers of glass, the first layer of polymer material including perovskite crystals that are activated by UV light and emit visible light, and: 2) a second layer of polymer material between the outer layer of glass and the first layer of polymer material, wherein the second layer of polymer material blocks UV light from sunlight that is incident on the outer layer of glass whereby the perovskite crystals do not emit light due to sunlight that is incident on the outer layer of glass; and utilizing a projector mounted in the cabin to project light having a wavelength in the range of 340 nm-380 nm onto the inside of the window to activate the perovskite crystals and form an illuminated image on the window that is visible from inside the cabin.