Disclosed is a method of identifying the contents of individual droplets in a droplet stream each droplet containing fluorophores in an initial non-fluorescing state characterized by the steps of introducing the droplets one-by-one into at least one open-ended tube to create a stack of droplets therein; activating the fluorophores within the droplets to cause them to fluoresce; releasing each droplet in the droplet stack in turn from the tube and detecting along the major axis of the tube fluorescence associated with each droplet as it emerges. Also disclosed is a method suitable for sequencing a biopolymer characterized by the steps of (1) progressively digesting the biopolymer into an ordered stream of its constituent monomers; (2) converting the stream of monomers into a corresponding stream of monomer-containing aqueous droplets each droplet additionally containing a probe capable of (a) capturing the monomer and (b) thereafter being digested to release an unqueched fluorophore characteristic of the captured monomer; (3) introducing the stream of droplets created in step (2) into an inlet end of at least one open-ended tube to create a stack of droplets therein and (4) releasing each droplet in turn from an outlet end of the tube(s) and detecting fluorophores in each droplet as each droplet emerges. The method may be used in a corresponding apparatus for sequencing a biopolymer such as a nucleic acid or protein.

Provided herein are methods and systems for biochemical analysis, including compositions and methods for processing and analysis of small cell populations and biological samples (e.g., a robotically controlled chip-based nanodroplet platform). In particular aspects, the methods described herein can reduce total processing volumes from conventional volumes to nanoliter volumes within a single reactor vessel (e.g., within a single droplet reactor) while minimizing losses, such as due to sample evaporation.

A dispenser and methods for transferring liquids are disclosed. The dispenser may include a capillary tube with tip having an aperture, a piezoelectric actuator coupled to the capillary tube at a location. Actuation of the piezoelectric actuator causes a pressure wave to propagate along the capillary tube toward the tip such that radial motion at the location is transmitted as distally extending axial motion of the tip, thereby causing a droplet of a predetermined volume to be ejected from the aperture. In some embodiments, the capillary tube has a modulus of elasticity in a range which dampens acoustical noise from the actuation and provides single drop stability over a range of drop sizes.

A curtain airbag device mounting structure includes: a first pillar forming a part of a front pillar and extends substantially along a vehicle height direction; a second pillar forming another part of the front pillar, the second pillar being disposed on a rear side of a vehicle relative to the first pillar at a predetermined distance from the first pillar and extending substantially along the vehicle height direction; a transparent member bridged between the first pillar and the second pillar; and a curtain airbag device including a curtain airbag stored along a roof side rail and the second pillar, the curtain airbag being configured to inflate and deploy in a curtain-like fashion over a side portion of a cabin of the vehicle in case of a collision of the vehicle.

Disclosed is a method of identifying the contents of individual droplets in a droplet stream each droplet containing fluorophores in an initial non-fluorescing state characterised by the steps of introducing the droplets one-by-one into at least one open-ended tube to create a stack of droplets therein; activating the fluorophores within the droplets to cause them to fluoresce; releasing each droplet in the droplet stack in turn from the tube and detecting along the major axis of the tube fluorescence associated with each droplet as it emerges. Also disclosed is a method suitable for sequencing a biopolymer characterised by the steps of (1) progressively digesting the biopolymer into an ordered stream of its constituent monomers; (2) converting the stream of monomers into a corresponding stream of monomer-containing aqueous droplets each droplet additionally containing a probe capable of (a) capturing the monomer and (b) thereafter being digested to release an unqueched fluorophore characteristic of the captured monomer; (3) introducing the stream of droplets created in step (2) into an inlet end of at least one open-ended tube to create a stack of droplets therein and (4) releasing each droplet in turn from an outlet end of the tube(s) and detecting fluorophores in each droplet as each droplet emerges. The method may be used in a corresponding apparatus for sequencing a biopolymer such as a nucleic acid or protein.

Provided herein are methods and systems for biochemical analysis, including compositions and methods for processing and analysis of small cell populations and biological samples (e.g., a robotically controlled chip-based nanodroplet platform). In particular aspects, the methods described herein can reduce total processing volumes from conventional volumes to nanoliter volumes within a single reactor vessel (e.g., within a single droplet reactor) while minimizing losses, such as due to sample evaporation.

A dispenser and methods for transferring liquids are disclosed. The dispenser may include a capillary tube with tip having an aperture, a piezoelectric actuator coupled to the capillary tube at a location. Actuation of the piezoelectric actuator causes a pressure wave to propagate along the capillary tube toward the tip such that radial motion at the location is transmitted as distally extending axial motion of the tip, thereby causing a droplet of a predetermined volume to be ejected from the aperture. In some embodiments, the capillary tube has a modulus of elasticity in a range which dampens acoustical noise from the actuation and provides single drop stability over a range of drop sizes.

A dispenser and methods for transferring liquids are disclosed. The dispenser may include a capillary tube with tip having an aperture, a piezoelectric actuator coupled to the capillary tube at a location. Actuation of the piezoelectric actuator causes a pressure wave to propagate along the capillary tube toward the tip such that radial motion at the location is transmitted as distally extending axial motion of the tip, thereby causing a droplet of a predetermined volume to be ejected from the aperture. In some embodiments, the capillary tube has a modulus of elasticity in a range which dampens acoustical noise from the actuation and provides single drop stability over a range of drop sizes.