Microfluidic mixing apparatus and method

What is claimed is: 1. A microfluidic mixing device for mixing at least two fluids to form a mixed fluid comprising: a first mixing chamber for receiving the fluids from at least a first and a second fluid paths; a mixing zone upstream from the mixing chamber having the first and second fluid paths; said first and second fluid paths overlapping at first and second discreet points so as to provide mutual fluid communication between the first and second paths at said discreet points, wherein at least one of the first and second fluid paths includes a primary channel and a plurality of divided channels dividing from the primary channel at a first node, and projecting to a second node whereupon said plurality of channels are recombined, wherein a width of the mixing chamber adjacent to an inlet of the first and second fluid paths entering the mixing chamber is equal to or greater than the sum of the widths of the channels of the at least one of the first and second fluid paths immediately upstream of the mixing chamber, and wherein at least one of said divided channels is of a greater flow capacity than at least one of said remaining divided channels. 2. The microfluidic mixing device according to claim 1 , wherein the relative position of the first and second fluid paths at the first discrete point is diametrically opposed to the relative position of the first and second paths at the second discreet point. 3. The microfluidic mixing device according to claim 1 , further comprising: a start chamber into which the at least two fluids are received; said mixing zone intermediate the start and mixing chambers such that the first and second fluid paths extend from the start chamber to the mixing chamber. 4. The microfluidic mixing device according to claim 3 further including a second mixing zone and a second mixing chamber, said second mixing zone intermediate the first mixing chamber and the second mixing chamber. 5. The microfluidic mixing device according to claim 3 wherein at least one of said fluid paths have at least a portion of said path extending outside of a plane defined by the start chamber. 6. The microfluidic mixing device according to claim 5 wherein said portion coincides with said discreet points. 7. The microfluidic mixing device according to claim 4 wherein said first mixing chamber includes an inlet for the introduction of a third fluid to the second mixing zone. 8. The microfluidic mixing device according to claim 3 wherein said device includes a plurality of start/mixing chambers with mixing zones intermediate said start/mixing chambers such that the microfluidic device includes a plurality of cycles of mixing zones. 9. The microfluidic mixing device according to claim 1 wherein said device comprises two external sealing substrates and two internal substrates, said internal substrates having the fluid paths formed in said substrates such that the external and internal substrates are arranged to cooperatively engage to form said device. 10. The microfluidic mixing device according to claim 1 , wherein the mixing zone comprises at least one module comprising: at least three inlets; at least three outlets; the first fluid path defined by channels from two of said inlets merging to form a single channel to connect with one of said outlets, and; the second fluid path defined by a channel from the third inlet dividing to form two channels to connect with the remaining two outlets. 11. The microfluidic mixing device according to claim 10 , wherein said discreet location positioned upstream of a point of merger of the channels of the first path and downstream from a point of division of the channels of the second path. 12. The microfluidic mixing device according to claim 10 wherein at least a portion of the channels defining the first path and at least a portion of the channels defining the second path are located on respective parallel planes. 13. The microfluidic mixing device according to claim 12 , wherein the point of merger and point of division are respectively located on said parallel planes.