Expanding the color gamut of thermochromic materials

The invention claimed is: 1. A method of forming a multi-colored image on a substrate that includes a thermochromic material capable of producing at least two different colors, the method comprising: controlling operation of first, second, and third heat sources, comprising: controlling the first heat source to heat pixels of the thermochromic material to one or more first temperatures sufficient to activate the pixels; after heating the pixels to the one more first temperatures, flooding an area that includes the pixels with a first UV radiation exposure; after flooding the area with the first UV radiation exposure, selectively controlling one or both of the second and the third heat sources to heat the pixels to one or more temperatures sufficient to color shift the pixels, wherein selectively controlling one or both of the second and third heat sources comprises one of: not heating the pixels with either of the second and third heating sources; heating the pixels with the third heat source and not heating the pixels with the second heat source; heating the pixels with second heat source and not heating the pixels with the third heat source; or sequentially heating the pixels with the second heat source and the third heat source; and flooding the area that includes the pixels with a second UV radiation exposure before each time the pixels are heated by the third heat source. 2. The method of claim 1 , wherein controlling the operation of the second and third heat sources comprises: heating the pixels with second heat source; and iteratively heating the pixels with the third heat source until desired color shifts of the pixels are obtained. 3. The method of claim 1 , wherein selectively controlling one or both of the second and third heat sources comprises: not heating a first set of the pixels with either of the second and third heating sources; heating a second set of the pixels with the third heat source and not heating the second set of the pixels with the second heat source; heating a third set of the pixels with second heat source and not heating the third set of pixels with the third heat source; sequentially heating a fourth set of the pixels with the second heat source and the third heat source. 4. The method of claim 1 , wherein: flooding the area that includes the pixels with a first UV radiation exposure comprises changing a color of the pixels to a first color; not heating the pixels with either of the second and third heating sources comprises not changing the color of the pixels from the first color; heating a second set of the pixels with the third heat source and not heating the second set of the pixels with the second heat source comprises color shifting the pixels to a second color; heating a third set of the pixels with second heat source and not heating the third set of pixels with the third heat source comprises color shifting the pixels to a third color; and sequentially heating a fourth set of the pixels with the second heat source and the third heat source comprises color shifting the pixels to a fourth color, wherein the first, second, third and fourth colors are different from each other. 5. The method of claim 1 , wherein sequentially heating the pixels with the second and the third heat source comprises color shifting the pixels to a color that is within a region above about 0.25 and below about 0.4 on the y-axis and above 0.2 and below about 0.5 on the x-axis of a standard CIE color chart. 6. The method of claim 1 , wherein sequentially heating the pixels with the second and the third heat source comprises color shifting the pixels to a color that is within a region bounded by a line expressed by the equation y>0.47x+0.08 and a line expressed by the equation y<0.47x+0.2 on a standard CIE color chart. 7. A method of forming a multi-colored image on a substrate that includes a thermochromic material capable of producing at least two different colors, the method comprising: heating pixels of the thermochromic material that correspond to the image to a first temperature sufficient to activate the pixels of the thermochromic material for color shift; flooding an area that includes the pixels with a first UV radiation exposure sufficient to partially polymerize the thermochromic material; heating the pixels to one or more second temperatures after flooding the area with the first UV radiation dosage; and iteratively performing one or more additional cycles until desired color shifts of the pixels are obtained, each cycle comprising flooding the area that includes the pixels with an additional UV radiation exposure followed by heating the pixels to one or more additional temperatures. 8. The method of claim 7 , further comprising: not iteratively performing the additional cycles on a first set of the pixels such that the first set of pixels exhibits a first color shift; and iteratively performing the additional cycles on a second set of the pixels such that the second set of pixels exhibits a second color shift. 9. The method of claim 7 , wherein: heating the pixels to the first temperatures comprises operating a first heat source to generate a first heat producing energy that heats the pixels to the first temperatures; heating the pixels to the second temperatures comprises operating a second heat source to generate a second heat producing energy that heats the pixels to the second temperatures; and iteratively heating the pixels to the additional temperatures comprises operating a third heat source to generate additional heat producing energy that heats the pixels to the additional temperatures. 10. The method of claim 7 , wherein: heating the pixels to the first temperature sufficient to activate the pixels and flooding the area of the pixels with the first UV radiation dosage after heating the pixels to the first temperature comprises changing a color of each pixel to a first color; heating a first set of the pixels to the one or more second temperatures after flooding the area with the first UV radiation dosage comprises color shifting the pixels to one or more second colors corresponding to the one or more second temperatures; and iteratively flooding the area of the pixels with the additional UV radiation dosage followed by heating the pixels to the one or more additional temperatures until the desired color shifts of the pixels are obtained comprises color shifting the pixels to one or more additional colors that are between the first color and one of the one or more second colors on a standard CIE color chart. 11. A system for forming a multi-colored image on a substrate that includes a thermochromic material capable of producing at least two different colors, the system comprising: first, second, and third, heat sources; first and second UV radiation sources; and a controller configured to control the heat sources, the controller configured to: control operation of the first heat source to heat first, second, third, and fourth sets of pixels of the thermochromic material to one of more first temperatures sufficient to activate the thermochromic material of the pixels; selectively control operation of the second and third heat sources to heat the pixels in the first, second, third, and fourth sets of pixels to one or more temperatures sufficient to color shift the pixels, the controller configured to control the operation of the second and third heat sources such that: the first and second sets of pixels are not exposed to heat producing energy produced by the second heat source; the third set and fourth sets of pixels are exposed to heat producing energy produced by the second heat source; the first and third se