Abstract: Provided herein is a fluidic device comprising a capillary barrier. A notch capillary barrier comprises two opposing ramps separated by a notch, optionally within a plateau region. An inset capillary barrier comprises a notch introduced into a wall of the fluidic channel. Such capillary barriers are useful for arresting menisci of liquids flowing through channels in which the capillary barriers are disposed. Liquids arrested on two sides of a notch face in a capillary barrier can be placed into fluid contact by application of negative pressure to the notch area sufficient to overcome the burst pressure on each side of the capillary barrier.

Abstract: System, including apparatus and methods, for aspirating at least a portion of an emulsion from a well using a tip. In some embodiments, the tip may have a flat end and an inlet surrounded by the flat end. The well may have a floor with one or more surface features that prevent uninterrupted circumferential contact of the flat end of the tip with any region of the floor. In some embodiments, the tip may not have a flat end. In some embodiments, the well may have a port that guides the tip to the floor with the tip slanted with respect to the floor. Methods of making a device that includes the well are also disclosed.

Abstract: System, including apparatus and methods, for aspirating at least a portion of an emulsion from a well using a tip. In some embodiments, the tip may have a flat end and an inlet surrounded by the flat end. The well may have a floor with one or more surface features that prevent uninterrupted circumferential contact of the flat end of the tip with any region of the floor. In some embodiments, the tip may not have a flat end. In some embodiments, the well may have a port that guides the tip to the floor with the tip slanted with respect to the floor. Methods of making a device that includes the well are also disclosed.

Abstract: An electrode “flow-through” capacitive desalination system wherein feed water is pumped through the pores of a pair of monolithic porous electrodes separated by an ultrathin non-conducting porous film. The pair of monolithic porous electrodes are porous conductors made of a material such as activated carbon aerogel. The feed water flows through the electrodes and the spacing between electrodes is on the order 10 microns.

Abstract: A method of forming a polymer-based microfluidic system platform using network building blocks selected from a set of interconnectable network building blocks, such as wire, pins, blocks, and interconnects. The selected building blocks are interconnectably assembled and fixedly positioned in precise positions in a mold cavity of a mold frame to construct a three-dimensional model construction of a microfluidic flow path network preferably having meso-scale dimensions. A hardenable liquid, such as poly (dimethylsiloxane) is then introduced into the mold cavity and hardened to form a platform structure as well as to mold the microfluidic flow path network having channels, reservoirs and ports. Pre-fabricated elbows, T's and other joints are used to interconnect various building block elements together. After hardening the liquid the building blocks are removed from the platform structure to make available the channels, cavities and ports within the platform structure.

Abstract: A peel and stick electronic system comprises a silicone body, and at least one electronic unit operatively connected to the silicone body. The electronic system is produce by providing a silicone layer on a substrate, providing a metal layer on the silicone layer, and providing at least one electronic unit connected to the metal layer.

Abstract: A peel and stick electronic system comprises a silicone body, and at least one electronic unit operatively connected to the silicone body. The electronic system is produce by providing a silicone layer on a substrate, providing a metal layer on the silicone layer, and providing at least one electronic unit connected to the metal layer.

Abstract: A method of forming a polymer-based microfluidic system platform using network building blocks selected from a set of interconnectable network building blocks, such as wire, pins, blocks, and interconnects. The selected building blocks are interconnectably assembled and fixedly positioned in precise positions in a mold cavity of a mold frame to construct a three-dimensional model construction of a microfluidic flow path network preferably having meso-scale dimensions. A hardenable liquid, such as poly (dimethylsiloxane) is then introduced into the mold cavity and hardened to form a platform structure as well as to mold the microfluidic flow path network having channels, reservoirs and ports. Pre-fabricated elbows, T's and other joints are used to interconnect various building block elements together. After hardening the liquid the building blocks are removed from the platform structure to make available the channels, cavities and ports within the platform structure.