Apparatus for Manipulating Color Changing Materials in Articles of Wear

1 - 21 . (canceled) 22 . An apparatus for manipulating a color displayed by a material comprising iron oxide colloidal nanocrystals arranged within chains, the apparatus comprising: (a) a magnetic field source, wherein a strength of a magnetic field generated by the magnetic field source is tunable to control the color displayed by the material; and (b) an energy source, wherein energy generated by the energy source is applied to at least some of the chains of nanocrystals to soften portions within the material immediately surrounding the chains of nanocrystals to which the energy is applied. 23 . The apparatus of claim 22 , wherein the energy source is removed while the magnetic field is still applied to the material to allow the portions within the material immediately surrounding the chains of nanocrystals to harden and fix a location of the nanocrystals within the chains. 24 . The apparatus of claim 22 , wherein the magnetic field source comprises a set of coils arranged proximate a platform so that the magnetic field is concentrated and oriented substantially perpendicular to the platform. 25 . The apparatus of claim 22 , wherein the magnetic field source comprises a set of coils arranged proximate a metal last so that the magnetic field is concentrated and oriented substantially uniform over a surface of the metal last. 26 . The apparatus of claim 25 , wherein the metal last is a magnetic coil. 27 . The apparatus of claim 22 , wherein the energy source comprises a convection heat source. 28 . The apparatus of claim 22 , wherein the energy source comprises a laser. 29 . The apparatus of claim 22 , wherein the magnetic field is incorporated into a drum of an industrial dryer, and the energy source is heat provided by the industrial dryer. 30 . The apparatus of claim 22 , wherein the material comprises a first layer comprising the chains of nanocrystals and at least one additional layer that does not comprise the chains of nanocrystals, wherein the energy source is a 95 GHz radiation beam that is configured to penetrate the first layer without penetrating the at least one additional layer. 31 . The apparatus of claim 22 , wherein the material is a film, laminate, yarn, thread, fabric, leather, plastic, or foam. 32 . The apparatus of claim 22 , wherein the magnetic field source acts as both the energy source by generating a rapidly fluctuating magnetic field, which creates transient currents in the chains of nanocrystals, and the magnetic field source by switching to a constant magnetic field once the portions within the material immediately surrounding the chains of nanocrystals to which the energy is applied are softened. 33 . The apparatus of claim 22 , wherein the energy source and the magnetic field are applied to the material during formation of an article of wear. 34 . The apparatus of claim 22 , wherein the energy source and the magnetic field are applied to the material prior to formation of an article of wear. 35 . The apparatus of claim 22 , wherein the material is a yarn or a thread and the energy source and magnetic field are applied to the material as the material is being fed into a weaving loom or a knitting machine. 36 . An apparatus for manipulating a color displayed by a material comprising iron oxide colloidal nanocrystals arranged within chains, the apparatus comprising: (a) a platform comprising a substantially flat surface having a gap therein, wherein the platform is configured so that at least a portion of the material is positioned adjacent the surface of the platform and the gap therein; (b) a magnetic field source configured to generate a magnetic field, wherein at least a portion of the magnetic field passes through the gap and is oriented substantially perpendicular to the surface of the platform and the portion of the material positioned proximate the gap, wherein a strength of the magnetic field is tunable to control the color displayed by the portion of the material positioned proximate the gap; and (c) an energy source configured to generate energy directed into the gap, wherein the energy directed into the gap is configured to be applied to the chains of nanocrystals within the portion of the material positioned proximate the gap to soften portions of the material immediately surrounding the chains of nanocrystals to which the energy is applied. 37 . The apparatus of claim 36 , wherein the energy source is removed while the magnetic field is still applied to the material to allow the portions within the material immediately surrounding the chains of nanocrystals to harden and fix a location of the nanocrystals within the chains. 38 . The apparatus of claim 36 , wherein the material comprises a roll of textile that is unrolled proximate a first end of the platform, positioned adjacent the surface of the platform and the gap therein, and re-rolled proximate a second end of the platform. 39 . The apparatus of claim 36 , wherein the gap is approximately 0.5 inches in width and approximately 8.5 inches in length. 40 . The apparatus of claim 36 , wherein the material comprises a first layer comprising the chains of nanocrystals and at least one additional layer that does not comprise the chains of nanocrystals, wherein the energy source is a 95 GHz radiation beam that is configured to penetrate the first layer without penetrating the at least one additional layer. 41 . The apparatus of claim 36 , wherein the material is a film, laminate, yarn, thread, fabric, leather, plastic, or foam. 42 . The apparatus of claim 36 , wherein the energy source comprises a laser. 43 . The apparatus of claim 36 , wherein the energy source comprises a focused UV lamp. 44 . The apparatus of claim 36 , wherein the magnetic field source acts as both the energy source by generating a rapidly fluctuating magnetic field, which creates transient currents in the chains of nanocrystals, and the magnetic field source by switching to a constant magnetic field once the portions within the material immediately surrounding the chains of nanocrystals to which the energy is applied are softened. 45 . An apparatus for manipulating a color displayed by a material comprising iron oxide colloidal nanocrystals arranged within chains, the apparatus comprising: (a) an activation tunnel comprising a central opening, wherein the central opening is configured so that the material is located within the activation tunnel; (b) a magnetic field source comprising a plurality of solenoids substantially surrounding the activation tunnel and configured to generate a magnetic field within the central opening of the activation tunnel, wherein a strength of the magnetic field is tunable to control the color displayed by a portion of the material within the activation tunnel; and (c) an energy source configured to generate energy directed into the central opening of the activation tunnel, wherein the energy directed into the central opening of the activation tunnel is configured to be applied to the chains of nanocrystals within the material to soften portions within the material immediately surrounding the chains of nanocrystals to which the energy is applied. 46 . The apparatus of claim 45 , wherein the energy source is removed while the magnetic field is still applied to the material to allow the portions within the material immediately surrounding the chains of nanocrystals to harden and fix