Waters, 186001164, XTerra MS C18 Prep Column, 125Å, 10 µm, 7.8 mm X 300 mm, 1/pk

XTerra Prep columns bring the benefits of Hybrid Particle Technology to isolation and purification applications in discovery and development laboratories. XTerra Prep MS columns possess our patented Hybrid Particle Technology, with particles engineered specifically for prep. It allows you to routinely operate at pH 1-12 so you can load up to 60X more onto the column. More capacity results in fewer injections for the same amount of pure material or more material with the same number of injections. In the discovery world, this greater capacity means you can use a shorter column, producing the same amount of material in half the time.

Specifications
Chemistry: C18
Separation Mode: Reversed Phase
Particle Substrate: Hybrid
pH Range Min: 1 pH
pH Range Max: 12 pH
Temperature Limits: 60 C
Maximum Pressure: 6000 psi (415 Bar)
Endcapped: Yes
Bonding Technology: MS C18
Silanol Activity: Low
Particle Shape: Spherical
Particle Size: 10 µm
Endfitting Type: Waters
Pore Size: 125 Å
Format: Prep Column
Surface Area: 175
System: HPLC Preparative
Technique: LC/MS, LC
USP Classification: L1
Inner Diameter: 7.8 mm
Length: 300 mm
Carbon Load: 16 %
UNSPSC: 41115709
Brand: XTerra
Product Type: Preparative Columns
Units per Package: 1 pk

Additional Information
XTerra MS C18 Prep Column, 125Å, 10 µm, 7.8 mm X 300 mm, 1/pk The XTerra OBD Preparative Columns are made of tough material with outstanding mechanical strength and efficiency. They offer excellent peak shapes for bases as well as simple scale-up from analytical to preparative chromatography. Having an XTerra OBD Prep Column in your lab setup can provide significant benefits, as it allows you to obtain excellent chemical stability for both low and high pH purifications. The benefits of Hybrid Particle Technology are brought to isolation and purification applications in discovery and development laboratories by XTerra Prep columns. Our unique Hybrid Particle Technology is used in XTerra Prep MS columns, with particles designed specifically for prep. It enables you to operate at pH 1-12 on a regular basis, allowing you to load up to 60X more onto the column. More capacity means fewer injections for the same amount of pure material or more material for each injection. In the field of discovery, more capacity means you can utilize a shorter column to produce the same quantity of material in half the time. Our website sells a variety of goods that are compatible with the XTerra OBD Preparative Column, such as guards, vials, and elution plates. The website allows you to shop for lab equipment as well as contact us with any questions. You can express your questions and concerns to a member of our staff in one of our many offices across the world. You might also be interested in the Waters Carbamate Analysis Kit , which comprises a Waters Carbamate column, Oasis HLB cartridges, vials, and Reference Standards. These products, designed for use with EPA Method 531.2, simplify your analysis while boosting your confidence in the results. Carbamate Column - designed and tested for high sensitivity and excellent resolution, this column is specified as the primary column for EPA Method 531.2; Oasis HLB Cartridges - for sample cleanup and concentration to ensure maximum sensitivity; Vials - certified to be clean and free of background contamination in order to provide optimized analysis; Carbamate Reference Standards - for both drinking water and wastewater, these reference materials increase your level of confidence in your results.

FAQ
What Are The Best Techniques For Isolating And Cleaning Analytes? Two commonly employed methods for separating and purifying specific sample components involve the utilization of solid-phase extraction (SPE). In cases where the concentrations of target chemicals are insufficient for precise and reliable quantification, a retention-cleanup-elution method is typically employed. This technique facilitates the concentration of diluted samples and the enhancement of trace chemicals. On the other hand, when the desired sample component is already present in significant concentrations, a pass-through cleanup approach can be employed. It should be noted that in the pass-through cleanup method, sample enrichment does not take place.