Phenomenex - Model Phenogel -GPC Columns
Phenogel size exclusion columns for gel permeation chromatography (GPC) are composed of highly cross-linked styrene-divinylbenzene (SDVB) and achieve high resolution and tight linear calibration curves. Phenogel GPC columns are available in seven different pore sizes, ranging from 50 Å to 106 Å; and a linear bed configuration. Pore size distribution and pore volume are closely controlled parameters in the manufacturing process, accounting for high resolution, tight linear calibration curves, and excellent column-to-column reproducibility. USP L21 packings available.
- 5 and 10 µm particle sizes
- Narrow bore (4.6 mm ID) solvent-saver columns available
- Highly cross-linked for mechanical and chemical stability
- Temperature stable to 140 °C.
Use Phenogel GPC Columns for Separations of Low, Moderate, and High Molecular Weight:
- Organic-soluble polymers
- Plastics and plasticizers
- Rubbers, resins, and elastomers
- Pharmaceutical excipients
- Food and cosmetic excipients
- Textiles/dyes
- Petroleum and fuels
- Oils, lipids, and fatty acids
- Sample cleanup by GPC
Phenogel packing materials are made from styrene-divinylbenzene by emulsion polymerization under conditions to optimize pore size, total pore volume, particle size, and degree of cross-linking. The results yield Gel Permeation Chromatography (GPC) materials that provide very high resolution, rugged durability, and wide solvent compatibility.
Although styrene-divinylbenzene materials are exceptionally inert, interaction between the column packing and sample materials (especially very polar solutes) occasionally occurs and the mobile phase must be modified to eliminate this effect. Phenogel columns can tolerate up to 0.1 % low MW amines, 0.5 % glacial acetic acid, or up to 1 % water in the mobile phase as modifiers.
Phenogel columns are temperature stable to 140 °C which is important for applications involving solutes with limited solubility at ambient temperatures, or where solubility considerations demand the use of viscous solvents such as DMF or DMSO. At higher temperatures, eluent viscosity is decreased and mass transfer is enhanced, with the effect of increasing sample resolution. This temperature stability is particularly useful when analyzing polymers such as polyethylene and polypropylene which require higher temperatures.