Abstract: System for storing and dispensing liquid in a digital microfluidic chip includes a plurality of reservoir electrodes defining a reservoir having an outlet and a first end opposite the outlet, the reservoir configured to be in fluidic communication with at least one device electrode proximate the outlet, the at least one device electrode and at least one of the plurality of reservoir electrodes configured to generate electrical actuation forces to dispense at least one droplet from the reservoir through the outlet. The plurality of reservoir electrodes include a first reservoir electrode proximate the first end, a reservoir outlet electrode proximate the outlet, and at least one intermediate reservoir electrode disposed between the first electrode and the reservoir outlet electrode.

Abstract: Digital microfluidic and analyte detection device includes a first substrate and a second substrate aligned generally parallel to each other with a gap defined therebetween in side view. At least one of the first and second substrates has an electrode array configured to generate electrical actuation forces to urge at least one droplet within the gap along the at least one of the first substrate and the second substrate. The electrode array has a plurality of electrodes defining an electrode array area in plan view. At least one of the first substrate and the second substrate has a well array defining a well array area in plan view. The well array area is bounded within the electrode array area and overlapping a portion of each of the plurality of electrodes. The well array area overlaps less than 75% of the electrode array area in plan view.

Abstract: Digital microfluidic device includes a first substrate and a second substrate aligned generally parallel to each other with a gap defined therebetween in side view. At least one of the first substrate and the second substrate include a first electrode array, a second electrode array spaced from and in electrical communication with the first electrode array, and a first interstitial area defined between the first electrode array and the second electrode array. At least one of the first electrode array and the second electrode array is configured to generate electrical actuation forces within an actuation area to urge at least one droplet within the gap along the at least one of the first substrate and the second substrate. At least one spacer is disposed in the first interstitial area to maintain the gap between the first substrate and the second substrate.