The invention relates to new methods for synthesising polynucleotide molecules according to a predefined nucleotide sequence. The invention also relates to methods for the assembly of synthetic polynucleotides following synthesis, as well as systems and kits for performing the synthesis and/or assembly methods.

The present invention relates to droplet-based surface modification and washing. According to one embodiment, a method of splitting a droplet is provided, the method including providing a droplet microactuator including a droplet including one or more beads and immobilizing at least one of the one or more beads. The method further includes conducting one or more droplet operations to divide the droplet to yield a set of droplets including a droplet including the one or more immobilized beads and a droplet substantially lacking the one or more immobilized beads.

A device for manipulating microdroplets comprises a microfluidic chip adapted to receive and manipulate microdroplets dispersed in a carrier fluid flowing along pathways therethrough characterised in that chip includes regions of differing or zero microdroplet fluid flow rates. Also disclosed is an electrowetting means of transporting emulsions and components of emulsions between the different flow regions.

A device comprising: a first zone comprising an attachment site; a first pathway; a second pathway and a means for creating a second medium comprised of aqueous microdroplets in a carrier; a microdroplet manipulation zone comprising: a first composite wall comprised of a first transparent substrate; a first transparent conductor layer on the substrate; a photoactive layer activated by electromagnetic radiation; and a first dielectric layer on the conductor layer; a second composite wall comprised of a second substrate; a second conductor layer on the substrate; and optionally a second dielectric layer on the conductor layer; an A/C source; a source of first electromagnetic radiation; means for manipulating the points of impingement of the electromagnetic radiation on the photoactive layer; an detection zone disposed downstream of the microdroplet manipulation zone or integral therewith; and a fluorescence or Raman-scattering detection system.

An open microfluidic system is provided. The open microfluidic system including the extreme wettability of exclusive liquid repellency (ELR), open microchannels with high lateral resolution and low profile, various valve arrangements, capable of a broad range flow rates, and capable of spatially and temporally trapping particles in open fluid.

A method for producing a carrier element for receiving a sample liquid is disclosed. The method includes a step of coating a carrier substrate with a light-sensitive polymer layer in order to obtain a coated carrier substrate, in particular wherein the carrier substrate has a hydrophilic surface quality. The method also includes an exposure and development step wherein the coated carrier substrate is exposed and developed in order to obtain a structured polymer layer. The method also includes a fluorination step, wherein the structured polymer layer on the carrier substrate is fluorinated in order to produce the carrier element for receiving the sample liquid, in particular wherein the structured polymer layer obtains a hydrophobic surface quality as a result of the fluorination step.

Integrated devices that include a sample preparation component integrated with a detection component are disclosed. The sample preparation component may be a digital microfluidics module or a surface acoustic wave module which modules are used for combing a sample droplet with a reagent droplet and for performing additional sample preparation step leading to a droplet that contains beads/particles/labels that indicate presence or absence of an analyte of interest in the sample. The beads/particles/labels may be detected by moving the droplet to the detection component of the device, which detection component includes an array of wells.

Compositions, devices, and methods are disclosed for the modification of polymer surfaces with coatings having a dispersion of silicone polymer and hydrophobic silica. The surface coatings provide the polymer surface with high hydrophobicity, as well as increased resistance to biofouling with proteinaceous material. The polymer surfaces can be particularly useful in microfluidic devices and methods that involve the contacting of the covalently modified polymer surfaces with emulsions of aqueous droplets containing biological macromolecules within an oil carrier phase.

A device for manipulating microdroplets using optically-mediated electrowetting comprising: a first composite wall comprising: a first transparent substrate; a first transparent conductor layer on the substrate having a thickness of 70 to 250 nm; a photoactive layer activated by electromagnetic radiation in the wavelength range 400-1000 nm on the conductor layer having a thickness of 300-1000 nm; and a first dielectric layer on the conductor layer having a thickness of 120-160 nm; a second composite wall comprised of: a second substrate; a second conductor layer on the substrate having a thickness of 70 to 250 nm; and an A/C source to provide a voltage across the first and second composite walls connecting the first and second conductor layers; at least one source of electromagnetic radiation having an energy higher than the bandgap of the photoexcitable layer; and means for manipulating the points of impingement of the electromagnetic radiation on the photoactive layer.

A digital microfluidic system, comprising: (a) a bottom plate comprising an electrode array comprising a plurality of digital microfluidic propulsion electrodes; (b) a top plate comprising a common top electrode; (c) a controller coupled to the processing unit, common top electrode, and bottom electrode array; and (d) a processing unit operably programmed to: receiving input instructions relating to a droplet diameter and aspect ratio; calculating actuation parameters comprising: a length of an actuated hold, a length of an actuated neck, and a height of an actuated head, for dispensing a droplet having the diameter and aspect ratio of the input instructions; outputting electrode actuation to the controller, the electrode actuation instructions relating to a dispense driving sequence for implementing the calculated actuation parameters, to dispense having the input diameter and aspect ratio; wherein the electrodes have a dimension less than the diameter of the droplet.