Photonic balls containing a microstructure of core-shell particles exhibiting angularly-independent structural color

What is claimed is: 1. A photonic assembly, comprising: a liquid droplet, dispersed in a carrier liquid, said liquid droplet comprising a plurality of colloidal particles, each colloidal particle comprising a light-scattering core surrounded by a first shell layer, wherein the plurality of colloidal particles is arranged with short-range order within the liquid droplet, wherein each of the colloidal particles has short-range order with up to a fifth neighbor colloidal particle, the plurality of colloidal particles being arranged without long-range order, wherein the plurality of colloidal particles is packed into the liquid droplet such that there is no observable Brownian motion in the liquid state, and wherein an observed color of the photonic assembly upon incidence of ambient light is determined at least in part by the short-range order and is independent of an angle from which the photonic assembly is viewed. 2. The photonic assembly of claim 1 , wherein the angular independence is observed from an incidence angle between 60° and 180°. 3. The photonic assembly of claim 1 , wherein each of the colloidal particles has short-range order with up to a second neighbor colloidal particle. 4. The photonic assembly of claim 1 , wherein each of the colloidal particles has short-range order only with a first neighbor colloidal particle. 5. The photonic assembly of claim 1 , wherein the observed color is in visible, infrared, or ultraviolet spectrum. 6. The photonic assembly of claim 1 , wherein the observed color is determined by a diameter of the core and a thickness of the first shell layer. 7. The photonic assembly of claim 1 , wherein the first shell layer has a thickness selected to provide interparticle scattering center-to-center distances for constructive interference of incident light within a first range of scattered wavelengths or for destructive interference of incident light within a second range of scattered wavelengths. 8. The photonic assembly of claim 1 , wherein the first shell layer has a thickness selected to enhance scattering in a red portion of the visible spectrum. 9. The photonic assembly of claim 1 , wherein the first shell layer has a thickness selected to suppress scattering in a blue portion of the visible spectrum. 10. The photonic assembly of claim 1 , wherein the light-scattering cores have a diameter selected to provide a predetermined degree of opacity to the observed color. 11. The photonic assembly of claim 1 , wherein the light-scattering cores have a diameter in a range of about 80 nm to about 250 nm. 12. The photonic assembly of claim 1 , wherein the colloidal particles have an overall dimension in the range of about 200 nm to about 1000 nm. 13. The photonic assembly of claim 1 , wherein the liquid droplet is a droplet in an emulsion suspension. 14. The photonic assembly of claim 13 , wherein the emulsion is a water-in-oil emulsion. 15. The photonic assembly of claim 1 , wherein the liquid droplet has a diameter that is about 20 colloidal particle diameters. 16. The photonic assembly of claim 1 , wherein the colloidal particles are dispersed in a dispersion liquid, wherein an index of refraction of the first shell layer is index matched with the dispersion liquid, such that there is no scatter of light at an interface between the carrier liquid and the shell layer. 17. The photonic assembly of claim 1 , wherein the first shell layer is surrounded by a second shell layer. 18. The photonic assembly of claim 17 , wherein each of the light-scattering core diameter, the first shell layer thickness, and the second shell layer thickness is selected to enhance or suppress scattering of a selected range of wavelengths, wherein the second shell layer is transparent to incident light. 19. A color display, comprising: a plurality of pixels arranged on a surface, each said pixel arranged as the photonic assembly according to claim 1 . 20. The color display of claim 19 , wherein the first shell layer has a thickness selected to provide interparticle core scattering center-to-center distances for constructive interference of incident light with a range of scattered wavelengths. 21. A method of generating an observable color on a surface, comprising: providing the photonic assembly according to claim 1 on the surface; exposing the surface to ambient light; and observing color on the surface, wherein the observed color of the photonic assembly is independent of the angle from which the photonic assembly is viewed. 22. A method of making a photonic assembly, comprising: coating each of a plurality of light-scattering cores with a first shell layer to obtain a plurality of colloidal particles; and packing the plurality of colloidal particles in a dispersion liquid to obtain a liquid droplet, wherein the plurality of colloidal particles is arranged with short-range order within the liquid droplet, wherein each of the colloidal particles has short-range order with up to a fifth neighbor colloidal particle, the plurality of colloidal particles being arranged without long-range order, wherein the plurality of colloidal particles is packed into the liquid droplet such that there is no observable Brownian motion in the liquid state, wherein an observed color of the photonic assembly upon incidence of ambient light is determined at least in part by the short-range order and is independent of an angle from which the photonic assembly is viewed.