CIM (Convective Interaction Media) represent a new generation of chromatographic supports. In contrast to conventional particle supports, where the void volume between individual porous particles is unavoidable, CIM supports consist of a single monolith with open channels. In this way, molecules to be separated are transported into the pores by convection, resulting in short separation times.
CIMsupports proved to be very efficient for extremely fast separations of proteins in ion exchange, hydrophobic interaction and affinity chromatography mode. Recently, the successful separation of DNA as well as some smaller molecules like e.g. peptides and oligonucleotides were also performed.
All the above mentioned separations were carried out on an analytical scale with the use of 0.34 mL CIM discs. The scale-up of monolithic units was limited mainly due to the problems associated to the mechanical stability, poor sample distribution and higher backpressures. The change from the axial to radial flow enables the design of the so-called 8 and 80mLCIM tubes. They were basically designed for very fast purification of macromolecules.
In this work we present some basic characteristics of these newly developed units in terms of separation and binding capacity. In addition, some practical examples will be given and discussed as well.