Method of making daylight redirecting window films employing embedded microstructures

What is claimed is: 1. A method of making a daylight redirecting window film, comprising: providing a first optically transmissive film having a generally smooth first broad area surface configured for light input and an opposing second broad area surface configured for light output; coating the first broad area surface with a layer of an optically transmissive adhesive, providing a second optically transmissive film approximately coextensive with the first optically transmissive film and comprising a first light redirecting layer disposed on a first side of the second optically transmissive film and a second light redirecting layer disposed on an opposite second side of the second optically transmissive film, wherein the first light redirecting layer comprises a periodic array of linear light redirecting structures extending parallel to an edge of the second optically transmissive film and defining a parallel array of linear channels each having a width of less than 50 micrometers, wherein the second light redirecting layer comprises a two-dimensional pattern of light scattering surface microstructures, wherein each of the linear light redirecting structures comprises a first side wall configured to reflect light using a total internal reflection, an opposing second side wall disposed at a distance from the first side wall, and a top wall joining the first and second side walls; positioning the second optically transmissive film relatively to the first optically transmissive film such that the first side of the second optically transmissive film is facing the second broad area surface of the first optically transmissive film; providing an optically transmissive adhesive layer between the first optically transmissive film and the second optically transmissive film; and bonding top portions of the linear light redirecting structures to the second broad area surface of the first optically transmissive film using the optically transmissive adhesive layer, wherein a combined thickness of the first optically transmissive film, the second optically transmissive film, the optically transmissive adhesive layer, and the layer of the optically transmissive adhesive is less than one millimeter. 2. The method of making a daylight redirecting window film of claim 1 , wherein the daylight redirecting window film is configured to be attached to an indoor-facing surface of a window of a building façade with a horizontal orientation of the linear light redirecting structures and is further configured for redirecting daylight to a ceiling. 3. The method of making a daylight redirecting window film of claim 1 , wherein the daylight redirecting window film is configured to be attached to an indoor-facing surface of a window of a building façade with a horizontal orientation of the parallel array of the linear channels, is further configured for redirecting daylight to a ceiling, and is further configured for blocking ultra-violet rays. 4. The method of making a daylight redirecting window film of claim 1 , wherein the daylight redirecting window film is adapted to be operably retained in a rolled configuration. 5. The method of making a daylight redirecting window film of claim 1 , wherein a distance between adjacent ones of the linear light redirecting structures is substantially less than a depth of the linear channels. 6. The method of making a daylight redirecting window film of claim 1 , wherein a distance between adjacent ones of the linear light redirecting structures is less than a depth of the linear channels by at least ten times. 7. The method of making a daylight redirecting window film of claim 1 , wherein a layered structure formed by the first and second optically transmissive films is configured to have one or more edges sealed using an air and/or moisture impermeable encapsulating resin. 8. The method of making a daylight redirecting window film of claim 1 , wherein a layered structure formed by the first and second optically transmissive films is configured to blur a view of objects through the layered structure. 9. The method of making a daylight redirecting window film of claim 1 , wherein the periodic array of linear light redirecting structures is formed by a process comprising slitting the first side of the second optically transmissive film using a rotary blade. 10. The method of making a daylight redirecting window film of claim 1 , further comprising sealing at least one edge of the first optically transmissive film, the second optically transmissive film, and the optically transmissive adhesive layer using an air and/or moisture impermeable encapsulating resin. 11. The method of making a daylight redirecting window film of claim 1 , wherein a depth of each of the linear channels is greater than 25% and less than 95% of a thickness of the second optically transmissive film. 12. The method of making a daylight redirecting window film of claim 1 , wherein a depth of each of the linear channels is between 50% and 95% of a total thickness of the second optically transmissive film. 13. The method of making a daylight redirecting window film of claim 1 , wherein a depth of each of the linear channels is from 50% to 95% of a total thickness of the second optically transmissive film and is greater than 20 micrometers. 14. The method of making a daylight redirecting window film of claim 1 , wherein a depth of each of the linear channels is between 20 micrometers and 100 micrometers. 15. The method of making a daylight redirecting window film of claim 1 , wherein the width of each of the linear channels is 20 micrometers or less. 16. The method of making a daylight redirecting window film of claim 1 , wherein the daylight redirecting window film is adapted to be operably retained in a rolled configuration and configured to be attached to an indoor-facing surface of a window of a building façade with a horizontal orientation of the linear light redirecting structures so as to redirecting daylight to a ceiling. 17. The method of making a daylight redirecting window film of claim 1 , wherein a distance between adjacent ones of the linear light redirecting structures is substantially less than a depth of the linear channels, wherein the depth is greater than 25% and less than 95% of a thickness of the second optically transmissive film. 18. The method of making a daylight redirecting window film of claim 1 , wherein a distance between adjacent ones of the linear light redirecting structures is substantially less than a depth of the linear channels, wherein the depth is greater than 25% and less than 95% of a thickness of the second optically transmissive film, and wherein a layered structure formed by the first and second optically transmissive films is configured to blur a view of objects through the daylight redirecting window film.