Confluent design chip allows to stablish a linear flow interphase interaction. This system use the linear flow in microfluidic devices to stablish a interaction in a confluent channel to purify mixtured solutions (microextraction) or to perform controled reactions (microreactor). The separation of mixed solutions is based in characteristics such as Hydrophobicity or differential solubility.

Bifurcated channels are designed to perform analysis of flow condition in the angle or to perform the interaction between two solutions. This device is compatible with cell culture to build a vessel-on-a-chip model, where the bifurcated angle allows to study the effect of shear stress.

The four straigth channels chip is the basic option to chemistry and biological laboratories to start with the standarization of microfluidic experiments. The different dimension of channels allow to load cells or reagents to test different experimental microfluidic conditions in order to optimize the characteristics of the study.

Spiral mixer allows to mix solution in a reproducible and controlable way for chemistry, pharmaceutical and molecular biology laboratories.

Microfluidic devices operate in laminar flow and this reduce the mixing in chip’s straight channels. Both spiral and serpentine designs allow to passively mix the solutions and to increase the reaction time in the chip. The difference between both design is the intensity of mixing, being smoothly mixed with the spiral and strongly mixed with the serpentine due to the sharp turns. BFlow offers these designs in different sizes and sections. These solutions are useful for:

1. Chemical controlled synthesis.
2. Pharmaceutical reactions.
3. Other mixing aplications as i.e. lab-on-a-chip systems.

Serpentine Chip allows to mix solution in a reproducible and controlable way for chemistry, pharmaceutical and molecular biology laboratories. Microfluidic devices operate in laminar flow and this reduce the mixing in chip’s straight channels. Both spiral and serpentine designs allow to passively mix the solutions and to increase the reaction time in the chip. The difference between both design is the intensity of mixing, being smoothly mixed with the spiral and strongly mixed with the serpentine due to the sharp turns. BFlow offers these designs in different sizes and sections. These solutions are useful for:

1. Chemical controlled synthesis.
2. Pharmaceutical reactions.
3. Other mixing aplications as i.e. lab-on-a-chip systems.