Honeycomb tube

What is claimed is: 1. A reaction tube comprising: a planar frame defining a fluidic path between a first planar substrate that encloses a first side of the planar frame and a second planar substrate that encloses a second side of the planar frame; a fluidic interface at one end of the planar frame, the fluidic interface comprising a fluidic inlet and fluidic outlet of the fluidic path, wherein the fluidic path further includes a well chamber defined in the planar frame between the first and second substrate, the well chamber including a planar well-substrate having a plurality of wells arranged in a pattern and open to the well chamber, the well chamber being in fluidic communication with the fluidic inlet and the fluidic outlet, wherein the fluidic path includes an inlet passage extending from the fluidic inlet and in fluid communication with the well chamber and an outlet passage in fluid communication with the well chamber and extending to the fluidic outlet; and a pre-amplification chamber arranged in the planar frame between the first and second substrates, the pre-amplification chamber being an enlarged portion of the fluidic path disposed along the fluidic path between the fluidic inlet and the well chamber so as to allow a fluid sample introduced via the inlet passage to undergo amplification before filling the plurality of wells in the well chamber, wherein the pre-amplification chamber includes a pre-amplification chamber exit in fluidic communication with a well chamber entrance that is in fluidic communication with the well chamber. 2. The reaction tube of claim 1 , wherein the pre-amplification chamber exit is separated from the well chamber entrance by an intermediate passage within the planar frame. 3. The reaction tube of claim 2 , wherein the pre-amplification chamber exit is positioned at an upper-most portion of the pre-amplification chamber when the first and second planar substrates are vertically oriented with the fluidic outlet positioned above the fluidic inlet. 4. The reaction tube of claim 3 , wherein the well chamber entrance is positioned at a lower-most portion of the well chamber when the first and second planar substrates are vertically oriented with the fluidic outlet above the fluidic inlet. 5. The reaction tube of claim 4 , wherein the well chamber entrance is positioned lower in elevation than the pre-amplification chamber exit when the first and second planar substrates are vertically oriented with the fluidic outlet above the fluidic inlet. 6. The reaction tube of claim 5 , wherein the intermediate passage is arranged to slope downward from the pre-amplification chamber exit to the well chamber entrance when the first and second planar substrates are vertically oriented with the fluidic outlet above the fluidic inlet. 7. The reaction tube of claim 1 , wherein the fluidic path is valveless. 8. The reaction tube of claim 1 , wherein the well-substrate comprises about 100 to about 1000 nanowells. 9. The reaction tube of claim 1 , wherein the well-substrate comprises a plurality of wells having a depth of about 100 to about 500 μm. 10. The reaction tube of claim 1 , wherein the well-substrate comprises a plurality of wells having a diameter of about 50 to about 500 μm. 11. The reaction tube of claim 1 , wherein each well of the plurality of wells defines a volume of about 0.8 nl. 12. The reaction tube of claim 1 , wherein the planar frame comprises a scaffold. 13. The reaction tube of claim 12 , wherein the first and second substrates respectively are first and second films that fluidically seal the scaffold. 14. The reaction tube of claim 1 , wherein the well-substrate comprises a nickel material. 15. The reaction tube of claim 1 , wherein the first and/or second substrates are light transmissive so as to allow excitation and/or detection of fluorescence of a fluid sample within the plurality of wells by one or more sensor devices placed adjacent or against the first and/or second substrate of the reaction tube. 16. The reaction tube of claim 1 , wherein one or more edges of the planar frame along the well chamber are light transmissive so as to allow excitation and/or detection of fluorescence of a fluid sample within the plurality of wells by one or more sensor devices placed along one or more edges of the planar frame. 17. The reaction tube of claim 1 , wherein the plurality of wells includes at least one nucleic acid primer and/or probe for amplification and/or detection of a specific target. 18. The reaction tube of claim 17 , wherein the at least one nucleic acid primer and/or probe are disposed in the plurality of wells with the first and second substrates being fluidically sealed to the planar frame so as to facilitate a biological assay of a fluid sample within the plurality of wells introduced via the fluidic inlet. 19. A reaction tube comprising: a planar frame defining a fluidic path between a first planar substrate that encloses a first side of the planar frame and a second planar substrate that encloses a second side of the planar frame; and a fluidic interface at one end of the planar frame, the fluidic interface comprising a fluidic inlet and fluidic outlet of the fluidic path, wherein the fluidic path further includes a well chamber defined in the planar frame between the first and second substrate, the well chamber including a planar well-substrate having a plurality of wells arranged in a pattern and open to the well chamber, the well chamber being in fluidic communication with the fluidic inlet and the fluidic outlet, wherein the fluidic path includes an inlet passage extending from the fluidic inlet and in fluid communication with the well chamber and an outlet passage in fluid communication with the well chamber and extending to the fluidic outlet, wherein a portion of the planar frame defines an oil chamber holding a hydrophobic substance, wherein the oil chamber comprises an enlarged portion of the flow path that is in fluidic communication with the well chamber and configured such that pressurized flow along the flow path supplies the hydrophobic substance to the well chamber from the oil chamber.