(Phys.org) —Using nanodot technology, Berkeley Lab researchers have demonstrated the first size-based form of chromatography that can be used to study the membranes of living cells. This unique ...

Due to their simultaneous expression, enveloped virus-like particles (VLPs) and extracellular vesicles (EVs) are difficult to distinguish and separate for analytical purposes. In addition to their ...

Liquid chromatography has long served as a cornerstone in the separation and analysis of complex mixtures, with evolving techniques continuously extending its utility across diverse scientific ...

The wide range of chromatographic techniques share one common aim: to separate a material into its components. A material, your sample, is dissolved in a solvent, called the mobile phase. This mixture ...

Recent advances in liquid chromatography (LC) and chemometrics have significantly transformed analytical chemistry by integrating robust separation techniques with sophisticated mathematical modelling ...

This lecture explains about the thin layer chromatography (TLC) technique. TLC principle is well explained with examples. Thin layer chromatography is the easy method to separate different types of ...

Using nanodot technology, researchers demonstrated the first size-based form of chromatography for studying the membranes of living cells. This unique physical approach to probing cellular membrane ...