Shim-pack Scepter Claris Phenyl-120, 3um, 4.6x150
Part Number: 227-31215-09
Column Name: Scepter Claris Phenyl-120
Particle size (µm): 3
ID (mm): 4.6
Length (mm): 150
USP: L11
Functional Group: Phenyl
Mode: Reversed Phase
Type: Analytical column (Bioinert)
Pore size (nm): 12
End Capping: Yes
Carbon Load (%): 17
PH: 1 to 10
Pressure Tolerance (MPa): 45
Pack size: 1
Lead Time: 4 - 6 weeks
Shim-pack Scepter Claris features a column body with a newly-developed bioinert coating packed with Scepter series stationary phases.
- Bioinert coating is applied to the column body and stainless steel frit
- Ideal for analysis of metal-coordinating and hydrophobically adsorbing compounds such as nucleic acids, proteins, and lipids
- Outstanding pH and lifetime stability due to Scepter organic silica hybrid packing
Superior Sensitivity and Separation Performance in Nucleic Acid Analysis
Shim-pack Scepter Claris C18-120 with the bioinert coating and Scepter C18-120 with traditional stainless steel hardware were compared in this example of an analysis of a synthetic oligonucleotide. Results from Claris were highly sensitive and reproducible from the rst injection, with no loss of sample signal. Scepter C18-120 in a stainless steel column body produced low-sensitivity results and showed adsorption from the first sample injection.
Outstanding Performance in Oligonucleic Acid Analysis
Shim-pack Scepter Claris C18-120 (bioinert coating) and Scepter C18-20 (stainless steel body) were compared in this analysis of Oligodeoxythymidylic acid [d(T)20]. Results from Scepter C18-120 show low peak intensity, suggesting adsorption on metal surfaces. In contrast, Scepter Claris C18-120 produced a sharper and high-intensity peak.
Improved Sensitivity and Separation of Phospholipids
Shim-pack Scepter Claris C18-120 minimizes metal-mediated adsorption and hydrophobic absorption on the column surfaces, resulting in high-resolution separations. In this example of structurally complex phosphatidylcholine isomers, Scepter Claris C18-120 achieved increased baseline resolution between isomers with higher sensitivity.