Integrated Colour LED Micro-Display

1 - 69 . (canceled) 70 . A light emitting diode (LED) display, comprising: a color converter configured to change wavelength of light, the color converter including: a color conversion layer; and a long pass filter on the color conversion layer, wherein the long pass filter allows light converted by the color conversion layer to pass, and recycles unconverted light; a micro-LED array configured to pump light into the color converter, wherein the array comprises a plurality of LEDs having a dimension between 0.5 μm to 100 μm; and a backplane control for the micro-LED array, the color conversion layer of the color converter producing light at a longer wavelength than the pumped light from the micro-LED array. 71 . The LED display of claim 70 , wherein the color converter includes a substrate and the color conversion layer is on the substrate. 72 . The LED display of claim 71 , wherein the substrate is made from glass, sapphire, silicon, gallium nitride (GaN), or silicon carbide. 73 . The LED display of claim 71 , wherein the color converter includes a transparent layer on the substrate. 74 . The LED display of claim 73 , further comprising a mask between the color conversion layer and the transparent layer, the mask being opaque or reflective. 75 . A light emitting diode (LED) display, comprising: a color converter configured to change wavelength of light, the color converter including: a color conversion layer; and a long pass filter on the color conversion layer, wherein the long pass filter allows light converted by the color conversion layer to pass, and recycles unconverted light; a micro-LED array configured to pump light into the color converter, wherein the array comprises a plurality of LEDs that generate substantially blue or ultraviolet (UV) light, and the color converter converts the light generated by the array into substantially red light; and a backplane control for the micro-LED array. 76 . The LED display of claim 75 , wherein the color converter includes a short pass filter on a side of the color conversion layer opposite the long pass filter, the short pass filter transmitting the substantially blue or UV light to the color conversion layer and reflecting the substantially red light. 77 . The LED display of claim 75 , wherein the color conversion layer includes at least one of a phosphor, a quantum dot, or an organic substance. 78 . The LED display of claim 75 , wherein the color converter includes a transparent layer and a short pass filter on the transparent layer, the short pass filter transmitting the substantially blue or UV light to the transparent layer and reflecting the substantially red light. 79 . The LED display of claim 75 , wherein the color converter includes a transparent layer and an etched silicon area that absorbs light between the color conversion layer and the transparent layer. 80 . A light emitting diode (LED) display, comprising: a color converter configured to change wavelength of light, the color converter including: a color conversion layer; and a long pass filter on the color conversion layer, wherein the long pass filter allows light converted by the color conversion layer to pass, and recycles unconverted light; a micro-LED array configured to pump light into the color converter, wherein the array comprises a plurality of LEDs that generate substantially blue or ultraviolet (UV) light, and the color converter converts the light generated by the array into substantially green light; and a backplane control for the micro-LED array. 81 . The LED display of claim 80 , wherein the color converter includes a substrate including a modified refractive index layer between un-modified refractive index layers to define a waveguide for the substantially green light from the color conversion layer. 82 . The LED display of claim 80 , wherein the color converter includes opaque/reflective features on the un-modified refractive index layer at a side of the substrate opposite the color conversion layer. 83 . The LED display of claim 80 , wherein the color converter includes a short pass filter on a side of the color conversion layer opposite the long pass filter, the short pass filter transmitting the substantially blue or UV light to the color conversion layer and reflecting the substantially green light. 84 . The LED display of claim 80 , wherein the color converter includes a transparent layer and a short pass filter on the transparent layer, the short pass filter transmitting the substantially blue or UV light to the transparent layer and reflecting the substantially green light. 85 . A light emitting diode (LED) display, comprising: a first micro-LED array configured to pump light into a first color converter, wherein the first array generates substantially blue or ultraviolet (UV) light, and the first color converter converts the light generated by the first array into substantially red light; and a second micro-LED array that generates substantially blue light; wherein converted light from the first array correspond to red subpixels, light from the second array correspond to blue subpixels, and the red and blue subpixels combine to form display pixels of the LED display. 86 . The LED display of claim 85 , wherein the first micro-LED array includes a gallium nitride (GaN) layer including light extraction features. 87 . The LED display of claim 86 , wherein the GaN layer of the first micro-LED array includes a convex light emitting surface for an LED. 88 . The LED display of claim 86 , wherein the GaN layer of the first micro-LED array includes a roughened light emitting surface for an LED. 89 . The LED display of claim 86 , wherein the GaN layer of the first micro-LED array includes pillars between the extraction features.