Multi-pane dynamic window and method for making same

What is claimed is: 1. A multi-zone dynamic window, comprising: a first transparent or translucent substrate; and a plurality of dynamic zones on the first substrate, the plurality of dynamic zones configured for independent control of optical transmittance properties, wherein at least one of the plurality of dynamic zones comprises a photochromic coating or a thermochromic coating disposed on the first substrate and at least one of the plurality of dynamic zones comprises a solid-state electrochromic device coating on the first substrate. 2. The multi-zone dynamic window of claim 1 , wherein the photochromic coating comprises a material selected from the group consisting of a triarylmethane, a stilbene, an azastilbene, a nitrone, a fulgide, a spiropyran, a naphthopyran, a spiro-oxazine, and a quinone. 3. The multi-zone dynamic window of claim 1 , wherein the thermochromic coating comprises a material is selected from the group consisting of a liquid crystal and a leuco dye. 4. The multi-zone dynamic window of claim 1 , wherein the first substrate comprises at least one of glass, acrylic and polycarbonate. 5. The multi-zone dynamic window of claim 1 , wherein said at least one of the plurality of dynamic zones comprising the electrochromic coating is located toward the top of the multi-zone dynamic window when installed, the dynamic zone configured for active control of transmittance properties for daylighting and/or reducing glare. 6. The multi-zone dynamic window of claim 5 , further comprising a pair of bus bars on the first substrate, the bus bars configured to apply a voltage to the electrochromic coating to control transmittance properties through the dynamic zone independently of the modulation of transmittance properties through other dynamic zones of the plurality of dynamic zones. 7. The multi-zone dynamic window of claim 5 , further comprising an electrically isolating line of removed material between said at least one of the plurality of dynamic zones comprising the electrochromic coating and other dynamic zones of the plurality of dynamic zones. 8. The multi-zone dynamic window of claim 7 , wherein the electrically isolating line has a width of between about 10 μm and 100 μm. 9. The multi-zone dynamic window of claim 1 , wherein the plurality of dynamic zones are configured for independent control of transmittance properties based on one or more of internal light levels, external light levels, weather conditions, time of day, and time of year. 10. The multi-zone dynamic window of claim 1 , further comprising a frame, wherein the first substrate is located in the frame configured for installation in a sash or a curtain wall. 11. The multi-zone dynamic window of claim 1 , wherein the first substrate is part of an insulated glass unit (IGU). 12. An insulated glass unit (IGU) comprising: a pair of parallel lites; a spacer between the parallel lites; and a seal between each of the parallel lites and the spacer; wherein at least one lite has a plurality of dynamic zones, wherein at least one of the plurality of dynamic zones comprises a photochromic coating or a thermochromic coating disposed on the at least one lite and at least one of the plurality of dynamic zones comprises a solid-state electrochromic device coating on the at least one lite. 13. The IGU of claim 12 , wherein each of the plurality of dynamic zones is an isolated area of the at least one lite. 14. The IGU of claim 12 , wherein the plurality of dynamic zones is configured for independent control of transmittance properties. 15. The IGU of claim 12 , wherein the photochromic coating comprises a material selected from the group consisting of a triarylmethane, a stilbene, an azastilbene, a nitrone, a fulgide, a spiropyran, a naphthopyran, a spiro-oxazine, and a quinone. 16. The IGU of claim 12 , wherein the thermochromic coating comprises a material is selected from the group consisting of a liquid crystal and a leuco dye. 17. The IGU of claim 12 , wherein one or both of the lites comprise at least one of glass, acrylic and polycarbonate. 18. The IGU of claim 12 , further comprising a pair of bus bars on the first substrate, the bus bars configured to apply a voltage to the electrochromic coating to control transmittance properties through the dynamic zone independently of the modulation of transmittance properties through other dynamic zones of the plurality of dynamic zones. 19. The IGU of claim 12 , further comprising an electrically isolating line of removed material between said at least one of the plurality of dynamic zones comprising the electrochromic coating and other dynamic zones of the plurality of dynamic zones. 20. The IGU of claim 19 , wherein the electrically isolating line has a width of between about 10 μm and 100 μm. 21. The IGU of claim 12 , wherein the plurality of dynamic zones is configured for independent control of transmittance properties based on one or more of internal light levels, external light levels, weather conditions, time of day, and time of year. 22. The IGU of claim 12 , wherein the electrochromic coating comprises a sputtered layer. 23. The IGU of claim 12 , wherein the electrochromic coating comprises a sol gel layer. 24. The IGU of claim 12 , further comprising a low-E coating or a reflective coating on at least one of the pair of parallel lites. 25. The IGU of claim 12 , wherein the at least one lite of the pair of parallel lites comprises a light scattering feature.