Abstract: This disclosure provides devices and methods for the isolation of single cells or particles of interest from a solution comprising a plurality of cells or a solution composed of a homogenous population of particles. Specifically, the present disclosure is directed to microfluidic devices and methods for analyzing cells in a sample. More specifically, the present disclosure provides droplet microfluidic devices and methods for using the same to obtain (trap), encapsulate, and retrieve (isolate) single cells or particles from a sample with improved efficiency.

Abstract: Devices, methods, and systems for generating droplets are provided. The devices, methods, and systems are designed to maximize droplet recovery, e.g., from a collection reservoir.

Abstract: The invention provides devices for forming droplets and concentrating droplets, and methods of their use. During operation of the devices, droplets are generated using two liquid phases. Once droplet formation is complete excess continuous phase is removed by the use of one or more pressure differentials.

Abstract: Devices, systems, and their methods of use, for generating and collecting droplets are provided. The invention provides multiplex devices that increase droplet formation in a limited area.

Abstract: A microfluidic device is disclosed which comprises a main flow channel and a partition chamber connected to a portion of same by a chamber inlet and chamber outlet. The device utilizes select cross sections to advantage capillary effects during filling and partitioning steps to isolate biological or other samples in the partition chamber for analysis and can be employed in a digital array.

Abstract: Devices, systems, and their methods of use, for generating droplets are provided. The devices, systems, and methods may include transporting a first liquid through an outlet of a channel and causing relative motion of the outlet and an interface of a second liquid to produce droplets of the first liquid in the second liquid. The devices, systems, and methods may also include illuminating a portion of the liquid as the liquid exits from an outlet. The invention also provides methods, devices, and systems for changing the size of a droplet and for eliminating a droplet from a plurality of droplets.

Abstract: Disclosed are devices, systems, kits, and methods for controlling liquid flow and, e.g., in particular, for forming droplet having substantially uniform droplet-to-droplet content. The devices, systems, and kits may include a first channel including a funnel or may include a first channel and a first-side channel, the first channel being in fluid communication with a droplet formation region. The devices, systems, and kits may further include a second channel fluidically connected to the first channel or the first side-channel. Funnels and/or side-channels may be used to enhance the control over particle spacing in the channels, thereby providing superior control over the number of particles of the same kind in formed droplets. The devices, systems, and kits of the invention may further include a mixer downstream of a channel intersection. Mixers can be used to reduce localized pockets of high concentration of dissolved ingredients.

Abstract: This disclosure provides devices and methods for the isolation of single cells or particles of interest from a solution comprising a plurality of cells or a solution composed of a homogenous population of particles. Specifically, the present disclosure is directed to microfluidic devices and methods for analyzing cells in a sample. More specifically, the present disclosure provides droplet microfluidic devices and methods for using the same to obtain (trap), encapsulate, and retrieve (isolate) single cells or particles from a sample with improved efficiency.

Abstract: This disclosure provides devices and methods for the isolation of single cells or particles of interest from a solution comprising a plurality of cells or a solution composed of a homogenous population of particles. Specifically, the present disclosure is directed to microfluidic devices and methods for analyzing cells in a sample. More specifically, the present disclosure provides droplet microfluidic devices and methods for using the same to obtain (trap), encapsulate, and retrieve (isolate) single cells or particles from a sample with improved efficiency.

Abstract: Devices, systems, and their methods of use, for generating and collecting droplets are provided. The device includes a collection region comprising a side wall canted at an angle. The invention further provides multiplex devices that increase droplet formation.

Abstract: This disclosure provides devices and methods for the isolation of single cells or particles of interest from a solution comprising a plurality of cells or a solution composed of a homogenous population of particles. Specifically, the present disclosure is directed to microfluidic devices and methods for analyzing cells in a sample. More specifically, the present disclosure provides droplet microfluidic devices and methods for using the same to obtain (trap), encapsulate, and retrieve (isolate) single cells or particles from a sample with improved efficiency.