Waters offers a comprehensive range of analytical system solutions, software, and services for scientists. Liquid Chromatography. Mass Spectrometry. Waters is the leading provider of lab equipment, supplies and software for scientists across the world. Easily research and order everything your lab needs! Waters offers a comprehensive range of analytical system solutions, software, and services for scientists. Liquid Chromatography. Mass Spectrometry. Waters is the leading provider of lab equipment, supplies and software for scientists across the world. Easily research and order everything your lab needs!
SKU: WAT054725 Sep-Pak Accell Plus QMA 35 cc Vac Cartridge, 10 g Sorbent per Cartridge, 37 - 55 µm, 10/pk
Sep-Pak Accell Plus QMA 35 cc Vac Cartridge | WAT054725
Sep-Pak Accell Plus QMA Vac cartridges contain a silica-based, hydrophilic, strong anion-exchanger with large pore size (300Å). The cartridges are designed for extraction of anionic analytes in aqueous and non-aqueous solutions. The large pore size makes it ideal for isolation of larger molecules such as anionic proteins such as immunoglobulins and enzymes. Other applications include isolation of phenolic compounds and removal of acidic pigments in wine, fruit juices, and food extracts. These syringe-barrel-type cartridges are designed for use with vacuum manifolds and automated SPE instruments.
Sep-Pak Accell Plus QMA 35 cc Vac Cartridge, 10 g Sorbent per Cartridge, 37 - 55 µm, 10/pk
The Sep-Pak Accell Plus QMA Vac cartridges use a silica-based, hydrophilic, strong anion exchanger with a large pore size (300). The cartridges are intended for anionic analyte extraction in aqueous and non-aqueous solutions. Because of the large pore size, it is ideal for isolating larger molecules such as anionic proteins like immunoglobulins and enzymes. Other applications include phenolic compound isolation and acidic pigment removal in wine, fruit juices, and food extracts. These cartridges with syringe barrels are intended for use with vacuum manifolds and automated SPE instruments.
All of our lab equipment is manufactured under strict conditions and subjected to stringent quality assurance standards, ensuring that you only receive high-quality products from your lab. Our website has columns, guards, vials, and elution plates to meet all of your analytical needs. We provide a variety of brands and versions that have been specifically designed to meet the needs of every type of chromatographic analysis. Visit our website to shop for lab equipment directly to find the right equipment for your lab needs.
Please visit our website or download our brochure to learn more about the Waters product options that are comparable to and compatible with the Sep-Pak Accell Plus QMA 35 cc Vac Cartridge featured here. You can restock your supplies and expand your current equipment port from our shop for lab equipment on our website.
You may also be interested in checking out the Preparative Chromatography Mix Standard. A distinctive collection of standards and mixtures makes up the Quality Control Reference Material portfolio. These products enable the user to evaluate and benchmark their chromatography system prior to performing critical material analysis. The portfolio's products have all been specially formulated based on the expertise of Waters scientists. In DMSO, 5 mg/mL of Diclofenac sodium salt, Diphenhydramine hydrochloride, and Flavone is used as the Preparative Chromatography Standard. This standard mix should be used to confirm your Preparative/purification system's benchmark performance.
How Is Enrichment Achieved In Low Concentration Sample Components?
To enhance the concentration of sample components existing in low concentrations, various approaches can be employed. One method involves customizing gradient steps to selectively elute analytes. Additionally, utilizing "large" sample volumes in a solvent that promotes adsorption proves effective. Conversely, employing a "small" collection volume in a solvent that promotes desorption is another useful technique. It can also be beneficial to utilize analyte-specific sorbent chemistry that differs from the one employed in the analytical column. Careful selection of the solid-phase extraction column's chemistry can eliminate the need for additional sample preparation, streamlining the process.
