High-performance membrane chromatography of proteins, a novel method of protein separation

“…For "chromatographic" applications it was desirable to insert the sheets into dedicated flow systems. The first systems suffered from problems with handling the liquid phase and pronounced sample dilution [3,15,16]. In order to use the entire membrane/monolith surface for adsorption, the incoming flow had to be distributed over a wide area and later collected again for detection.…”

“…This has important consequences for chromatographic separations on these stationary phases. Information concerning the size and the structure of the throughpore channels can be deduced, for example, from the flow character (permeability) of the monolithic disks [13,27]. One approach to providing high performance monoliths for chromatographic purposes are the so-called CIM TM (convective interaction media) disks from BIA Separation d. o. o., Slovenia [28,29].…”

An Introduction to Monolithic Disks as Stationary Phases for High Performance Biochromatography

“…For "chromatographic" applications it was desirable to insert the sheets into dedicated flow systems. The first systems suffered from problems with handling the liquid phase and pronounced sample dilution [3,15,16]. In order to use the entire membrane/monolith surface for adsorption, the incoming flow had to be distributed over a wide area and later collected again for detection.…”

“…This has important consequences for chromatographic separations on these stationary phases. Information concerning the size and the structure of the throughpore channels can be deduced, for example, from the flow character (permeability) of the monolithic disks [13,27]. One approach to providing high performance monoliths for chromatographic purposes are the so-called CIM TM (convective interaction media) disks from BIA Separation d. o. o., Slovenia [28,29].…”

An Introduction to Monolithic Disks as Stationary Phases for High Performance Biochromatography

“…Reducing the sizes of these particles is an option to diminish the functionless voids; however, packing of smaller particles reduces the permeability of the column developing high back pressure during the separation. Finally, a sophisticated design of an integrated and continuous network of flow-through pores was introduced forming a "one-piece" porous material currently called a "monolithic column" [79][80][81]. Monolithic columns are known to have these distinct and advantageous characteristics: (1) easy fabrication; (2) versatility for a variety of surface chemistries; and (3) good permeability that allows fast convective mass transfer with low backpressure even at high flow rates.…”

“…Tennikova et al designed and prepared the organic polymer-based monolithic column in 1991 [79]. The polymerization mixture is usually sealed into a microcolumn, allowed to polymerize by exposure to UV light or by keeping at a certain temperature followed by flushing out excess reagents and solvents [125].…”

Development of Monolithic Column Materials for the Separation and Analysis of Glycans

“…Monoliths are the fourth generation chromatography material [3], succeeding beads, porous particle-based columns and membrane adsorbers. In the last two decades, numerous articles describing preparation, properties and applications of monolithic columns were published [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18]. In contrast, this review focuses on the applied aspect of monoliths and describes recent applications of monoliths for the purification of biomolecules.…”

Monoliths in Bioprocess Technology