Waters, 186008754, ACQUITY UPLC Peptide HSS T3 Column, 100Å, 1.8 µm, 2.1 mm X 50 mm, 1K - 15K, 1/pk

ACQUITY UPLC Peptide HSS T3 Column, 100Å, 1.8 µm, 2.1 mm X 50 mm, 1K - 15K Columns are designed for separations where silica-based selectivities are desired or when increased retention of hydrophilic peptides are required. Each batch of HSS T3, 100Å material is QC tested with a gradient separation of a tryptic digest of cytochrome c (p/n: 186006371) and must pass stringent performance criteria before acceptance for use in these columns. 2.1mm ID columns are recommended for use with low dispersion (UPLC or UHPLC) systems, especially for LC-MS methods.

Specifications
Chemistry: C18
Separation Mode: Reversed Phase
Particle Substrate: Silica
pH Range Min: 2 pH
pH Range Max: 8 pH
Temperature Limits: 45 C
Maximum Pressure: 18000 psi (1240 Bar)
Endcapped: Yes
Bonding Technology: T3
Silanol Activity: Medium
Molecular Weight Range Min: 1000
Molecular Weight Range Max: 15000
Particle Shape: Spherical
Particle Size: 1.8 µm
Endfitting Type: Parker-style
Pore Size: 100 Å
QC Tested: Peptide
Format: Column
Surface Area: 230
System: UPLC, UHPLC
Particle Technology: HSS
USP Classification: L1
Inner Diameter: 2.1 mm
Length: 50 mm
Carbon Load: 11 %
UNSPSC: 41115709
Application: Peptide
Brand: ACQUITY UPLC
Product Type: Columns
Units per Package: 1 pk

Additional Information
ACQUITY UPLC Peptide HSS T3 Column, 100Å, 1.8 µm, 2.1 mm X 50 mm, 1K - 15K, 1/pk Add the ACQUITY UPLC Peptide HSS T3 Column to your lab equipment to successfully navigate the hurdles of liquid chromatography. For improved retention of polar compounds and metabolites, reversed-phase liquid chromatography is the perfect application for the lab equipment's low ligand density. The ACQUITY UPLC Peptide HSS T3 Column will allow the analytes to enter the material's pore structure. As a result, ion-pair reagents are no longer required for the retention of polar and hydrophobic molecules. The Waters HSS (High Strength Silica) particle technology utilized in the ACQUITY UPLC HSS T3 Column was created especially to endure UPLC pressures by fusing a mechanically resilient silica-based material with a novel synthetic technique that considerably boosts silica's mechanical stability. This provides enhanced retentivity and alternative selectivity when compared to hybrid particle technology. Utilize the excellent value offered by the ACQUITY UPLC Peptide HSS T3 Column to satisfy a variety of chromatographic applications. The lab equipment makes it straightforward to move between approaches while boosting equipment and preserving or improving resolution across components. Waters developed the ACQUITY UPLC Peptide HSS T3 Column to enable the use of a single chromatographic method to analyze a variety of formulation compositions after realizing that the range of analyte polarity can make creating chromatographic methods challenging. You will not only be able to tackle the challenges of the laboratory because of the exceptional qualities of the ACQUITY UPLC Peptide HSS T3 Column, but you will also be more productive and successful in your work. The universal, silica-based bonded phase used in the ACQUITY HSS T3 sorbents is compatible with the 100% aqueous mobile phase and ought to be your first option for setting up separations for polar and non-polar compounds. The MS bleed on the ACQUITY HSS T3 UPLC columns is incredibly low, and they are simple to scale and transfer to HPLC separations. Install the ACQUITY UPLC Peptide HSS T3 VanGuard Pre-column, 100Å, 1.8 µm, 2.1 mm X 5 mm, 1K - 15K, 3/pk with your column to filter out unwanted contaminants from the mobile phase.

FAQ
What Is The pH Range Of The ACQUITY UPLC Peptide HSS T3 Column? The ACQUITY UPLC Peptide HSS T3 Column listed here is able to perform well across the 2-8 pH. What Are The Temperature Limits Of The ACQUITY UPLC Peptide HSS T3 Column? This particular ACQUITY UPLC Peptide HSS T3 Column is able to sustain a maximum of 45 C.