Patent ID: 9201042
Filing Date: 2015-12-01
Classification: B01F,B01L,B81B,G01N

Abstract:
1. A digital microfluidic (DMF) device including one or more electrode platforms, each electrode platform being configured to hold a fluid droplet and to transport the fluid droplet to an adjacent electrode platform, the device comprising: a plurality of electrode platforms forming a circular rotary mixing module, wherein the circular rotary mixing module is configured to move fluid droplets in a circular pattern while mixing the fluid droplets; two or more sample reservoirs for supplying fluid droplets; one or more waste reservoirs for collecting waste droplets; a first sample pathway of electrode platforms extending between one of the two sample reservoirs and one of the plurality of electrode platforms forming the circular rotary mixing module for transporting fluid droplets from the one of the two sample reservoirs to the circular rotary mixing module; a second sample pathway of electrode platforms extending between the other of the two sample reservoirs and one of the plurality of electrode platforms forming the circular rotary mixing module for transmitting fluid droplets from the other of the two sample reservoirs to the circular rotary mixing module; a waste pathway of electrode platforms extending between one of the plurality of electrode platforms forming the circular rotary mixing module and a waste reservoir for transporting waste droplets from the circular rotary mixing module to the waste reservoir; a plurality of storage electrode platforms positioned adjacent to, but not part of, the circular rotary mixing module, wherein each of the plurality of storage electrode platforms has access to one of the electrode platforms of one of the pathways such that fluid droplets can be transported between the plurality of storage electrode platforms and the circular rotary mixing module; a second plurality of electrode platforms arranged in a circular pattern forming a second circular rotary mixing module, wherein the first sample pathway also extends between one of the two sample reservoirs and one of the second plurality of electrode platforms forming the second circular rotary mixing module, and wherein the second sample pathway also extends between the other of the two sample reservoirs and one of the second plurality of electrode platforms forming the second circular rotary mixing module, and wherein the output pathway also extends from one of the second plurality of electrode platforms forming the second circular rotary mixing module; a second waste reservoir; a second waste pathway of electrode platforms extending between one of the second plurality of electrode platforms forming the second circular rotary mixing module and the second waste reservoir; and an output pathway of electrode platforms extending between the first plurality of electrode platforms forming the first circular rotary mixing module and the second plurality of electrode platforms forming the second circular rotary mixing module.