Electromagnetic energy-absorbing optical product and method for making

That which is claimed is: 1. An electromagnetic energy-absorbing optical product comprising: a) a polymeric substrate; and b) a composite coating, said composite coating comprising a first layer comprising a polyionic binder and a second layer comprising at least one electromagnetic energy-absorbing insoluble particle, wherein each of said first layer and said second layer include a binding group component which together form a complimentary binding group pair wherein said electromagnetic energy-absorbing insoluble particle is an infrared electromagnetic energy-absorbing insoluble particle. 2. The optical product of claim 1 wherein said binding group component of the second layer is an ionizable functionality at the surface of said infrared electromagnetic energy-absorbing insoluble particle. 3. The optical product of claim 1 wherein said infrared electromagnetic energy-absorbing insoluble particle is particulate cesium tungsten oxide. 4. The optical product of claim 2 wherein said infrared electromagnetic energy-absorbing insoluble particle is particulate cesium tungsten oxide. 5. The optical product of claim 2 wherein said ionizable functionality is tungstate anion. 6. The optical product of claim 5 wherein said tungstate anion is furnished from said particulate cesium tungsten oxide. 7. The optical product of claim 3 wherein said particulate cesium tungsten oxide is cesium tungsten oxide nanoparticles. 8. The optical product of claim 6 wherein said particulate cesium tungsten oxide is cesium tungsten oxide nanoparticles. 9. The optical product of claim 1 wherein said infrared electromagnetic energy-absorbing insoluble particle has an average particle diameter of between 5 and 300 nanometers. 10. The optical product of claim 1 wherein said first layer is immediately adjacent to said polymeric substrate at its first face and said second layer is immediately adjacent to said first layer at its opposite face. 11. The optical product of claim 6 wherein said optical product has a T vis of no more than 50%. 12. The optical product of claim 6 wherein said optical product has a T vis of no less than 80%. 13. The optical product of claim 6 further comprising a second composite coating, said second composite coating comprises a first layer comprising a polyionic binder and a second layer comprising an electromagnetic energy-absorbing particle, wherein said first layer of said second composite coating and said second layer of said second composite coating, comprise a complimentary binding group pair. 14. The optical product of claim 13 wherein said second layer of said first composite coating and said second layer of said second composite coating in combination provide an additive effect on the electromagnetic energy-absorbing character and effect of the electromagnetic energy-absorbing optical product. 15. The optical product of claim 6 wherein the polymeric substrate is a polyethylene terephthalate film and further comprises an ultraviolet absorbing material. 16. The optical product of claim 1 wherein said polymeric substrate is an undyed transparent polyethylene terephthalate film. 17. The optical product of claim 1 wherein said polymeric substrate comprises a coating layer selected from the group consisting of a metallic layer, a dielectric layer, a ceramic layer and combinations thereof, as a component. 18. The optical product of claim 6 wherein at least one of said first layer and said second layer of said composite coating is formed from an aqueous dispersion. 19. The optical product of claim 6 wherein said optical product is a composite interlayer for laminated glass and further includes at least one safety film or interlayer. 20. The optical product of claim 1 wherein said infrared electromagnetic energy-absorbing insoluble particle is a particulate inorganic oxide.