A synthesis device comprises a reaction vessel configured to contain a number of carriers and to which a solution is configured to be supplied, and a gas supplier configured to supply a gas to the reaction vessel to stir the solution and the carriers.

Parallel reactor systems for synthesizing materials are disclosed. The reactor systems may include at least two reaction vessels and may be suitable for synthesizing materials produced from corrosive reagents, for example, Ziegler-Natta catalysts. Antechambers may be provided above the reaction vessels to help purge vapors produced by the corrosive reagents. Methods for preparing materials by use of such parallel reactor systems are also disclosed.

A process (and a related system) for collecting samples of a polymerization catalyst or of a catalyst-containing polymer from an operation unit, having an upper end and a lower end, of a polymerization plant, including the steps of: a) extracting a prefixed amount of product from the lower end of the operation unit through a discharge valve; b) directing the product towards a filtering unit through an inlet valve; c) flushing an inert gas through the filtering unit; d) outgassing the filtering unit, through the outlet valve; and e) displacing the filtering unit, for collecting the sample.

A peptide synthesis instrument can be used for small scale peptide synthesis. The instrument can include several unique features, including a compression style reaction vessel permitting quick setup of the reaction vessel, a double reaction vessel system permitting efficient mixing without loss of solvent or solvent-to-resin contact, gravity-fed heated reservoirs establishing a fixed volume for delivery to the reaction vessel, fume-free solvent addition permitting solvent addition to fixed bottles, and an improved amino acid manifold assembly which reduces the number of components and increases the ease of use of the instrument. Each of these features improve upon the current state of the art in solid phase automated peptide synthesizers.

The invention is directed to methods and apparatus for parallel enzymatic synthesis of polynucleotides in an array of reaction chambers using a tem-plate-free polymerase that has sequence-dependent coupling efficiencies. Whenever sequences causing low efficiency coupling occur at a 3′ end of a growing chain of a polynucleotide being synthesized, one or more additional coupling cy-cies without de-protection steps are inserted into synthesis plans to provide additional time for completing the coupling reaction at that position of the polynucleotide.

A microfluidic device for analysing nucleic acids includes a pump unit with a pumping volume, a filter unit for receiving a lysate, and a reaction chamber. The pump unit, the filter unit and the reaction chamber are arranged in the stated order in a pump direction of the pump unit. The microfluidic device is configured to pump an elution medium via the pump unit into the filter unit for elution and subsequently into the reaction chamber for further treatment.

A peptide synthesis instrument can be used for small scale peptide synthesis. The instrument can include several unique features, including a compression style reaction vessel permitting quick setup of the reaction vessel, a double reaction vessel system permitting efficient mixing without loss of solvent or solvent-to-resin contact, gravity-fed heated reservoirs establishing a fixed volume for delivery to the reaction vessel, fume-free solvent addition permitting solvent addition to fixed bottles, and an improved amino acid manifold assembly which reduces the number of components and increases the ease of use of the instrument. Each of these features improve upon the current state of the art in solid phase automated peptide synthesizers.

Apparatuses and a method for plate-based oligonucleotide synthesis are disclosed. In one example, an apparatus used in oligonucleotide synthesis includes a machined block to receive a commercially-available synthesis plate. A keeper is used to apply pressure to the commercially-available synthesis plate, and a sealing element is used to seal the commercially-available synthesis plate to the machined block. Other methods and apparatuses are disclosed.

A continuous flow reactor, a method of performing a continuous flow reaction, and a method of controlling a moveable wall of a reaction chamber of a continuous flow reactor. The reactor comprising: an inlet; an outlet; and a reaction chamber, between the inlet and the outlet and providing a flow path therebetween, the reaction chamber having a moveable wall; the reactor further comprising: a pressure sensor configured to monitor a fluid pressure in the continuous flow reactor; and a controller, operable to adjust the position of the moveable wall, and thereby change a volume of the reaction chamber, based on the monitored fluid pressure.

Disclosed is a multi-channel peptide synthesizer, including a gas-bath thermotank, a plurality of reactor tubes, a motor, a rotating rack, a liquid-feeding tube, a feeding device, a vacuum tube and a nitrogen tube. The gas-bath thermotank body provides a desired constant temperature for reaction. The reactor tube provides a place for peptide synthesis and resin washing. The motor and the rotating rack are used to fully mix the reaction and cleaning solutions. Various liquid reagents required are fed to the reactor tube through the liquid-adding tube. Various materials required are prepared in advance in the feeding device and directly fed to the reactor tube. The reaction or washing solution in the reactor tube is pumped to a waste liquid tank through the vacuum tube. Nitrogen is introduced into each reactor tube through the nitrogen tube. This device can be applied in batch-wise peptide synthesis using solid-phase methods.