In chromatography, the components of a mixture are separated. This is made possible because different components interact with the mobile and solid phases differently, thus either being retained on ...

In the case of gas chromatography, columns can be made long for improving efficiency as described above. In the case of liquid chromatography, very small particles (< 3 micrometers diameter) and high ...

Thermo Fisher Scientific Inc., the world leader in serving science, today introduced three new high-capacity, high-efficiency 4 µm particle-size capillary IC columns that enable faster, more accurate ...

Monolithic columns represent a significant advancement in liquid chromatography, utilising a continuous, porous structure to facilitate rapid and efficient separations. Unlike traditional packed ...

Thermo Fisher Scientific Inc. has introduced three new high-capacity, high-efficiency 4 µm particle-size capillary IC columns that enable faster, more accurate analyses. The Thermo Scientific Dionex ...

Biomanufacturers face the ongoing challenge of balancing costs and production timelines, with product quality and purity. Join us for this insightful webinar to explore the latest innovations for ...

Users often feel a sense of accomplishment when achieving well-defined, isolated spots with a thin-layer chromatography (TLC) plate. Users set up a flash chromatography method, prepare the column, ...

Jessica Lin and Zhenqi (Pete) Shi from Genentech describe a novel machine learning approach to predicting retention times for ...

Everything in chromatography is a compromise. It’s like a game, trying to come up with the best system of compromises that gives you the optimum platform for the separation process. “There are lots of ...

The biopharma industry is looking at continuous chromatography for sensitive molecules. Continuous processes continue to advance in bioprocessing. In downstream processing, continuous chromatography ...