Micro-fluidic modules on a chip for diagnostic applications

The invention claimed is: 1. A chip for amplifying genetic material, comprising: a substrate having a top surface and a backside defining a thickness thereof; at least two trenches through an entirety of the thickness of the substrate, each of the trenches being isolated from one another; a substrate heater having a plurality of substrate heating resistors along a length of the substrate that define a first temperature zone for maintaining a first temperature, a second temperature zone for maintaining a second temperature below the first temperature, and a third temperature zone for maintaining a third temperature between the first and second temperatures, on the substrate, wherein one of the at least two trenches exists between the first and third temperature zones and the other of the at least two trenches exists between the second and third temperature zones thereby thermally isolating the substrate heating resistors in distinct temperature regions along the length of the substrate; and a flow path formed on the substrate between a fluid inlet and outlet at ends of the length of the substrate for conveying reactions to the first temperature zone, the third temperature zone, and the second temperature zone to allow the reactions to undergo denaturing, annealing, and extension, respectively, according to a polymerase chain reaction process for at least one cycle, wherein the flow path extends in a flow feature layer on the substrate under a cover defining a serpentine channel having a plurality of cycles along an extent of the serpentine channel, wherein the cycles pass through each of the first, second and third temperature zones but wherein none of the substrate heating resistors are disposed in the cycles along the extent of the serpentine channel that passes above the at least two trenches. 2. The chip of claim 1 , further comprising one or more pumps disposed along the flow path for compelling the reactions to move along the flow path. 3. The chip of claim 1 , wherein the flow path is formed by a flow feature layer disposed above the substrate heater. 4. The chip of claim 1 , wherein the first temperature is above 90° C. 5. The chip of claim 1 , wherein the second temperature is between about 70° C. and about 75° C. 6. The chip of claim 1 , wherein the third temperature is between about 50° C. and about 65° C.