Abstract: Provided herein is technology relating to microfluidics and particularly, but not exclusively, to methods, devices, and systems for solid phase sample capture and washing for continuously flowing droplet microfluidics.

Abstract: In one representative embodiment, a device includes a main microchannel and at least two other microchannels. The main microchannel defines a main fluid flow path and has an opening, and first and second microchannels defining a first and second fluid flow paths, respectively. The first fluid flow path is in fluidic communication with the main fluid flow path via the opening and forms a first angle relative to the main microchannel less than 90 degrees. The second microchannel defines a second fluid flow path in fluidic communication with the main fluid flow path via the opening and in fluidic communication with the first fluid flow path. The second microchannel forms a second angle relative to the main microchannel less than 90 degrees. The first and second microchannels form a third angle relative to one another, with the third angle being between 60 and 135 degrees.

Abstract: In one representative embodiment, a device includes a main microchannel and at least two other microchannels. The main microchannel defines a main fluid flow path and has an opening, and first and second microchannels defining a first and second fluid flow paths, respectively. The first fluid flow path is in fluidic communication with the main fluid flow path via the opening and forms a first angle relative to the main microchannel less than 90 degrees. The second microchannel defines a second fluid flow path in fluidic communication with the main fluid flow path via the opening and in fluidic communication with the first fluid flow path. The second microchannel forms a second angle relative to the main microchannel less than 90 degrees. The first and second microchannels form a third angle relative to one another, with the third angle being between 60 and 135 degrees.