Photocatalytic color switching of redox imaging nanomaterials of rewritable media

What is claimed is: 1. A reversible color switching system, comprising: a printable media; and a reversible color switching medium which is applied to the printable media, the reversible color switching medium comprising: a redox imaging material; a photocatalyst, which photocatalyzes the redox imaging material to produce a photocatalytic redox reaction enabling reversible and color switching in response to light irradiation, the photocatalyst being a semiconductor nanoparticle; a stabilizing material, which stabilizes the reduced redox imaging material; and a surfactant, the surfactant being a capping ligand configured to bind on a surface of the photocatalyst, and wherein the capping ligand acts as a sacrificial electron donor. 2. The color switching system of claim 1 , wherein the photocatalyst is selected from the following: binary metal oxides: TiO 2 , ZnO, SnO 2 , WO 3 , Nb 2 O 5 and ZrO 2 ; and/or sulfides: CuS, ZnS, CdS, SnS, WS 2 and/or MoS 2 . 3. The color switching system of claim 1 , wherein the photocatalyst is titanium oxide (TiO 2 ). 4. The color switching system of claim 1 , wherein the image material comprises a redox dye. 5. The color switching system of claim 4 , wherein the redox dye is selected from the following: methylene blue (color of oxidized form: blue and color of reduced form: colorless), methylene green (green and colorless), neutral red (red and colorless), acid green (green and light yellow), safranin T (red-violet and colorless), phenosafranin (red and colorless), indigomono sulfoinic acid (blue and colorless), indigo carmine (blue and colorless), indigotrisulfonic acid (blue and colorless), indigotetrasulfonic acid (blue and colorless), thionine (violet and colorless), sodium o-cresol indophenol (blue and colorless), sodium 2,6-dibromophenol-indophenol (blue and colorless), 2, 2′-bipyridine (Ru complex) (colorless and yellow), 2,2′-bipyridine(Fe complex) (cyan and red), nitrophenanthroline (cyan and red), n-phenylanthranilic acid (violet-red and colorless), 1,10-phenathroline iron(II) sulfate complex (cyan and red), n-ethoxychrysoidine (red and yellow), 5,6-dimethylphenanthroline (Fe complex) (yellow-green and red), o-dianisidine (red and colorless), sodium diphenylamine sulfonate (red-violet and colorless), diphenylbenzidine (violet and colorless), diphenylamine (violet and colorless), and/or viologen (colorless and blue). 6. The color switching system of claim 1 , wherein the imaging material comprises a transition metal hexacyanometallates, the transition metal hexacyanometallates including alkali metal ions, alkaline earth ions, ammonium ions, or combinations thereof, and transition metal ions. 7. The color switching system of claim 6 , comprising: water (H 2 O) within a crystal structure of the transition metal hexacyanometallates of the imaging material. 8. The color switching system of claim 6 , wherein the metal hexacyanometallates is Prussian blue. 9. The color switching system of claim 1 , wherein the imaging material includes transition metal ions and a photocatalyst. 10. The color switching system of claim 9 , wherein the transition metal ions are V, Cr, Mn, Fe, Co, Ni, Cu, Mo, W and/or Ag. 11. The color switching system of claim 1 , wherein photocatalyst is a transition metal ion doped with TiO 2 nanoparticles. 12. The color switching system of claim 1 , wherein the capping ligand contains poly(ethylene glycol)-b-poly(propylene glycol)-b-poly(ethylene glycol). 13. The color switching system of claim 1 , wherein the image materials are processed as thin films and/or coatings. 14. The color switching system of claim 1 , wherein the stabilizing material is hydroxyethyl cellulose. 15. The color switching system of claim 1 , wherein the semiconductor nanoparticles are integrated nanostructures containing the photocatalyst and the sacrificial electron donor. 16. The color switching system of claim 15 , wherein the integrated nanostructures have a size of between 5 nm to 500 nm.