Time temperature indicator by chromatography and photonic lattice changes

What is claimed is: 1. A time-temperature indicator (TTI) comprising: a substrate; a mesh layer affixed to the substrate; a photonic crystal patterned film affixed to the mesh layer and comprising a photonic crystal material, wherein the photonic crystal shows a property of bandgap shift vs temperature and thereby responds to a predetermined range of temperatures to provide a visible indication of the range of temperatures, the mesh layer with the photonic crystal material rendering a visual summary of a product's accumulated chill chain history, recording the effects of both time and temperature using pre-set times, and wherein the photonic crystal pattern provides a temperature recording medium with lattice spacing of the photonic crystal pattern, the lattice spacing controlling at least one characteristic of the time and temperature indication by the photonic crystal; and a hardener pouch containing a hardener and affixed to one end of the mesh layer and configured to allow release of the hardener in response to an initiating event, so as to dispense the hardener progressively across the patterned film as a function of time, modulated by temperature, progressively recording temperature across the patterned film as a function of time, thereby to provide continuous temperature recording in a designated relative time range to render the visual summary of the product's accumulated chill chain history, wherein the photonic crystal material responds to the hardener by presenting a fixed state. 2. The time-temperature indicator as described in claim 1 , wherein the mesh layer has a configuration which permits the hardener to pass the mesh layer as a function of time, thereby progressing along a length of the mesh layer from the hardener pouch, and progressively causes the photonic crystal material to respond to the hardener along said length. 3. The time-temperature indicator as described in claim 1 , further comprising the photonic crystal material comprising at least one material selected from 1-D, 2-D or 3-D structures, in order to establish a thermal response characteristic of the photonic crystal material. 4. The time temperature indicator as described in claim 1 , wherein the substrate comprises a thermo-conductive adhesive layer fixable to a product, or the packaging of the product, for which time and temperature sensing indicates a corresponding shelf life. 5. The time-temperature indicator as described in claim 1 , wherein the visual summary provided by the mesh layer with the photonic crystal material records the effects of both time and temperature using pre-set times, and reflects temperature variation on a frozen lattice spacing providing visualization by the naked eye or with a spectral analyzer. 6. The time-temperature indicator as described in claim 1 , further comprising: the photonic crystal material and hardener recording continuous temperature variation along a continuous timeslot on the strip by physically triggering a timing function, thereby allowing correlation of a temperature effect as a function of temperature over time to provide a correlation with a degradation or other temperature effect as a function of temperature over time. 7. The time-temperature indicator as described in claim 1 , further comprising: the dispensing of the hardener progressively across the patterned film recording continuous temperature variation along a continuous timeslot on the strip by physically triggering a timing function, thereby allowing correlation of a temperature effect as a function of temperature over time to provide a correlation with a degradation or other temperature effect as a function of temperature over time. 8. A method of indicating a time-temperature history of a perishable or time and temperature-sensitive product, the method comprising: preparing a substrate attachable to the product or to packaging of the product; fixing a mesh layer to the substrate; applying a photonic crystal patterned film to the mesh layer comprising a photonic crystal material, wherein the photonic crystal shows a property of bandgap shift vs temperature and thereby responds to a predetermined range of temperatures to provide a visible indication of the range of temperatures, the mesh layer with the photonic crystal material rendering a visual summary of a product's accumulated chill chain history, recording the effects of both time and temperature using pre-set times, and wherein the photonic crystal pattern provides a temperature recording medium with lattice spacing of the photonic crystal pattern, the lattice spacing controlling at least one characteristic of the time and temperature indication by the photonic crystal; and providing a hardener by dispensing the hardener from one end of the mesh layer and configured to allow release of the hardener in response to an initiating event, so as to dispense the hardener progressively across the patterned film as a function of time, modulated by temperature, progressively recording temperature across the patterned film as a function of time, thereby to provide continuous temperature recording in a designated relative time range to render the visual summary of the product's accumulated chill chain history, wherein the photonic crystal material responds to the hardener by presenting a fixed state. 9. The method of claim 8 , further comprising providing the substrate as a thermo-conductive adhesive layer. 10. The method of claim 8 , further comprising: providing the hardener from a hardener pouch mounted so as to dispense the hardener progressively across the patterned film as a function of time, modulated by temperature. 11. The method of claim 8 , wherein the visual summary provided by the mesh layer with the photonic crystal material records the effects of both time and temperature using pre-set times, and reflects temperature variation on a frozen lattice spacing providing visualization by the naked eye or with a spectral analyzer. 12. The method of claim 8 , wherein the photonic crystal patterned film comprises photonic crystals on a polymer fabricated using laser exposure. 13. A time-temperature indicator (TTI) comprising: a substrate; a mesh layer affixed to the substrate; a photonic crystal patterned film affixed to the mesh layer and comprising a photonic crystal material, wherein the photonic crystal shows a property of bandgap shift vs temperature and thereby responds to a predetermined range of temperatures to provide a visible indication of the range of temperatures, the mesh layer with the photonic crystal material rendering a visual summary of a product's accumulated chill chain history, recording the effects of bath time and temperature using pre-set times, and wherein the photonic crystal pattern provides a temperature recording medium with lattice spacing of the photonic crystal pattern, the lattice spacing controlling at least one characteristic of the time and temperature indication by the photonic crystal; and a hardener pouch containing a hardener and affixed to one end of the mesh layer and configured to allow release of the hardener in response to an initiating event to render the visual summary of the product's accumulated chill chain history, wherein the photonic crystal material responds to the hardener by presenting a fixed state, wherein the photonic crystal patterned film comprises photonic crystals on a polymer fabricated using laser exposure. 14. The time-temperature indicator as described in claim 13 , wherein: the photonic crystal material and hardener record continuous temperature variations along a continuous timeslot on the strip by physically triggering a