Gases do naturally dissolve in all types of liquids, and if they outgas due to changes in the surrounding conditions, they will form bubbles. In a fluidic system, such
This technical document gives a detailed, yet easily accessible, graphical overview of which chemicals and solvents are compatible with the different DEGASi® stand-alone inline degasser models. This is very
Modern inline degassers are highly robust equipment with a long lifetime, so if their internal vacuum pumps eventually fail, there is a good chance the original part is no
Instrumental analysis may use resources that are limited and chemicals that have negative environmental impact. By constructing fluidic systems to deliver accurate and consistent results with low variability, we
During the Analytica exhibition in Munich Germany, the team from LCGC International interviewed Dr. Fritiof Pontén, CEO of Biotech Fluidics, about what Biotech Fluidics can do to help customers
Biotech Fluidics has produced a new convenient degasser selection guide covering the different models in the family of DEGASi® Stand-Alone inline degassers. This comprehensive product range have expanded rapidly
During 2023, Biotech Fluidics was selected by AutoSyn AB to work on a series of enhancements for their Autonomous Chemistry Lab flow chemistry system. The Autonomous Chemistry Lab, developed
Recently, the magazines LCGC North America & LCGC Europe published an updated assessment of how issues with bubble formation are being dealt with in liquid chromatography systems. The text
Biotech Fluidics AB reports supplying key microfluidic and degassing components to BioNavis Oy (Tampere, Finland) for its range of Multi-Parametric Surface Plasmon Resonance (MP-SPR) instruments. Surface Plasmon Resonance is
Biotech Fluidics has recently launched a new model of inline degassers, designed for full compatibility with the toughest solvents. We named it DEGASi® Integration HFIP since it can withstand
