Reagent storage in microfluidic systems and related articles and methods

What is claimed is: 1. A fluidic device comprising: an article comprising a top outer surface a bottom outer surface, a thickness, a first microfluidic channel segment formed in the top outer surface of the article, and a second microfluidic channel segment formed in the bottom outer surface of the article; an intervening channel passing through the thickness of the article thereby connecting the first microfluidic channel segment formed in the top outer surface of the article and the second microfluidic channel segment formed in the bottom outer surface of the article; a first fluid reagent stored in at least a portion of the first microfluidic channel segment, the second microfluidic channel segment, or the intervening channel; a second fluid reagent stored in at least a portion of the first microfluidic channel segment, the second microfluidic channel segment, or the intervening channel; a fluid plug positioned between, and immiscible with, the first and second fluid reagents, wherein the fluid plug contains a gas; an inlet in fluid communication with the first and second microfluidic channel segments; an outlet in fluid communication with the first and second microfluidic channel segments; a fluid-tight seal covering the inlet; and a fluid-tight seal covering the outlet. 2. The fluidic device of claim 1 , wherein the intervening channel passes completely through the article from the first surface to the second surface. 3. The fluidic device of claim 1 , wherein the fluid plug is configured to prevent or reduce mixing between the first and second fluid reagents. 4. The fluidic device of claim 1 , comprising a first cover positioned over the first microfluidic channel segment so as to enclose at least a portion of the first microfluidic channel segment and/or a second cover positioned over the second microfluidic channel segment so as to enclose at least a portion of the second microfluidic channel segment. 5. The fluidic device of claim 1 , wherein the fluid-tight seal covering the inlet and the fluid-tight seal covering the outlet are adapted and arranged to prevent or reduce evaporation and/or contamination of the first or second fluid reagents. 6. The fluidic device of claim 1 , comprising a plurality of the first and second microfluidic channel segments. 7. The fluidic device of claim 1 , wherein the article is a single, integral piece of material without joined layers. 8. The fluidic device of claim 1 , wherein two planes tangent to two points on a perimeter of a cross section of the first channel segment intersect at an angle of less than or equal to 45°, wherein the two points are on adjacent walls of the first channel segment, at least one of the walls being a portion of a cover enclosing at least a portion of the first channel segment. 9. The fluidic device of claim 1 , wherein the fluidic device is adapted and arranged to allow the first and second fluid reagents to be statically maintained in the fluidic device for greater than one day. 10. The fluidic device of claim 1 , wherein the first fluid reagent comprises a first binding partner and the second fluid reagent comprises a second binding partner adapted and arranged to bind with the first binding partner. 11. The fluidic device of claim 1 , wherein at least one of the first and second fluid reagents is a rinse solution. 12. The fluidic device of claim 1 , further comprising a stored, dry reagent. 13. The fluidic device of claim 12 , wherein the article comprises a channel that is not in fluid communication with the first and second microfluidic channel segments, and wherein the stored, dry reagent is a reagent immobilized on at least a portion of the channel that is not in fluid communication with the first and second microfluidic channel segments. 14. A fluidic device as in claim 1 , wherein the first microfluidic channel segment and/or the second microfluidic channel segment has a cross sectional shape that resembles a trapezoid. 15. The fluidic device of claim 1 , wherein the first microfluidic channel segment and/or the second microfluidic channel segment has at least one angle between adjacent walls of the first and/or second microfluidic channel segment of less than 90°. 16. The fluidic device of claim 1 , wherein the intervening channel has a cross-sectional shape different than the cross-sectional shapes of the first and/or second microfluidic channel segment. 17. The fluidic device of claim 1 , wherein the first microfluidic channel segment and/or the second microfluidic channel segment has a draft angle of greater than or equal to 3°. 18. The fluidic device of claim 1 , wherein the first microfluidic channel segment and/or the second microfluidic channel segment has a draft angle of greater than or equal to 8°. 19. The fluidic device of claim 4 , wherein the first microfluidic channel segment and the first cover mate such that a cross-section of the first microfluidic channel segment, when mated with the first cover, includes a first portion adjacent the first cover that is convex and a second portion continuous with the first portion that is linear or concave. 20. The fluidic device of claim 19 , wherein the convex portion comprises a radius of curvature of greater than or equal to at least 5 microns. 21. The fluidic device of claim 20 , wherein the convex portion is continuous along the length of the first microfluidic channel segment. 22. The fluidic device of claim 1 , wherein the first and/or second microfluidic channel segment comprises a serpentine channel. 23. The fluidic device of claim 1 , wherein the fluidic device is constructed and arranged such that the first reagent can be stored in the fluidic device for a period of at least one month. 24. The fluidic device of claim 1 , wherein the article is formed of a polymeric material, and wherein the polymeric material is selected from polystyrene, cyclo-olefin-copolymer, polymethylmethacrylate, and polycarbonate. 25. The fluidic device of claim 24 , wherein the article is formed by injection molding. 26. The fluidic device of claim 1 , wherein no more than 5% of the perimeter of a cross section of the first microfluidic channel segment is perpendicular to the first surface and/or wherein no more than 5% of the perimeter of a cross section of the second microfluidic channel segment is perpendicular to the second surface. 27. The fluidic device of claim 1 , wherein the intervening channel has cross-sectional dimensions within 50% of the smallest width of each of the first and second microfluidic channel segments. 28. The fluidic device of claim 1 , wherein the intervening channel has a volume less than or equal to the volume of the first fluid reagent or the volume of the second fluid reagent stored in the fluidic device. 29. The fluidic device of claim 1 , wherein the intervening channel has a ratio of length to largest width of less than 3. 30. The fluidic device of claim 1 , wherein the first and/or second microfluidic channel segments have a width to depth ratio of greater than or equal to 1. 31. The fluidic device of claim 1 , wherein the first and/or second microfluidic channel segments have a cross-sectional dimension of less than 600 microns. 32. The fluidic device of claim 1 , wherein the article has a thickness of less than 3 mm.