Acclaim RSLC 快速分离色谱柱
Acclaim RSLC Columns: UltiMate 3000 Intelligent LC 系统的得力武器 The Acclaim RSLC 柱增加样品的处理量,同时保持方法稳定性和操作简单性。该色谱柱是理想 Dionex UltiMate 3000 超快速液相色谱柱,该超快速液相色谱柱特殊反相填料有助于提高分析效果。 Ideal for fast LC Acclaim Rapid Separation Liquid Chromatography (RSLC) columns use 2 and 3 &mu m particles for fast separations. These columns, together with the UltiMate RSLC system, provide ultrafast, high efficiency LC separations.&bull Accelerate separations up to fifteen-fold compared to conventional LC.&bull Accelerate sample throughput up to 30-fold compared to conventional LC, with Dionex RSLC LCi Solutions.&bull Save up to 85% of solvent with 3 &mu m columns and 92% of solvent with 2 &mu m columns.&bull Use as little as 15&ndash 40% of sample volume traditionally required for LC.&bull Achieve easy-to-use, reliable, fast separations.&bull Ease of operation ensures optimal, fast separations Acclaim RSLC 2.2 &mu m columns achieve high throughput without sacrificing chromatographic performance. These columns are based on high-purity spherical porous silica gel. Currently, four column chemistries are available: Acclaim RSLC 2.2 &mu m C18, C8, PolarAdvantge I (PA) and PolarAdvantage II (PA2).Acclaim RSLC 2.2 &mu m C18 material features high-density monomeric C18 chemistry with exhaustive endcapping. As a result, it provides the selectivity of a standard C18 phase and extremely low silanol activity. Similarly, the Acclaim RSLC 2.2 &mu m C8 material features high-density monomeric C8 chemistry with exhaustive endcapping. The PA material features a polar sulfonamide chemistry that provides very good hydrolytic stability and eliminates dewetting problems. The PA2 material features amide-embedded chemistry with excellent hydrolytic stability (pH 1.5 to 10). Acclaim RSLC 2.2 &mu m columns are available in 2.1 mm and 3.0 mm i.d. with 30 mm, 50 mm, 100 mm, 150 mm, and 250 mm lengths.Acclaim RSLC 3 &mu m columns are available in three stationary phases: Acclaim 120 C18, Polar Advantage (PA), and Polar Advantage II (PA2). The columns are packed in 3 mm i.d. with 33 mm, 50 mm, 75 mm, 150 mm, and 250 mm lengths. The inner diameter of 3 mm makes these columns fully compatible with standard analytical LC instrumentation, and saves up to 85% solvent compared to a 4.6 mm column of otherwise identical features.Acclaim RSLC columns complement the Dionex UltiMate 3000 RSLC system to provide superior speed, reliability, and ease-of-use. Using RSLC with Dionex LC system solutions for tandem LC, parallel LC, or other techniques further increases sample throughput up to 30-fold. See the LC Solutions sections for more informationAcclaim RSLC 2.2 µ m Column SpecificationsColumnAcclaim 120 C18Acclaim PA2SubstrateUltrapure SilicaUltrapure SilicaOrganic Solvents20-100%0-100%Bonded PhaseC18Amide C18EndcappedYesYesPartical ShapeSphericalSphericalParticle Size2.2µ m2.2µ mMetal Impurity (ppm) NA, Fe, Al10 ppm10 ppmAverage Pore Diameter120 Â 120 Â Surface Area (m2/g)320320Total Carbon Content17%17%pH Range2.0-8.01.5-10Pressure Limit (bar)600: 2.1 × 50 mm800: 2.1 × 100mm600: 2.1 × 50 mm800: 2.1 × 100mmTemperature80 ° C80 ° C Acclaim RSLC 3µ m Columns SpecificationsColumnsAcclaim 120 C18Acclaim PAAcclaim PA2SubstrateUltrapure SilicaUltrapure SilicaUltrapure SilicaOrganic Solvents20-100%0-100%0-100%Bonded PhaseC18Sulfamide C16Amide C18EndcappedYesYesYesParticle ShapeSphericalSphericalSphericalParicle Size3µ m3µ m3µ mMetal Impurity (ppm) Na, Fe, Al10 ppm10 ppm10ppmAverage pore Diameter120Â 120Â 120Â Surface area (m2/g)300300300Total carbon content18%17%17%pH2.0-8.02.0-8.01.5-10Pressure limit (psi)450045004500Temperature806580订购信息:Acclaim RSLC 120 C18 Analytical ColumnsAcclaim RSLC 120, C18, 3 µ m Analytical (3.0 x 33 mm)066272Acclaim 120 C18, 3µ m Analytical, (3.0 x 50mm)068971Acclaim RSLC 120, C18, 3 µ m Analytical (3.0 x 75 mm)066273Acclaim 120, C18, 3 µ m Analyitcal (3.0 x 150 mm)063691Acclaim RSLC 120, C18, 2.2µ m Analytical (2.1 x 30 mm)071400Acclaim RSLC 120, C18, 2.2µ m Analytical (2.1 x 50 mm)068981Acclaim RSLC 120, C18, 2.2µ m Analytical (2.1 x 100 mm)068982Acclaim RSLC 120, C18, 2.2µ m Analytical, (2.1 x 150mm)071399Acclaim RSLC 120, C18, 2.2µ m Analytical (2.1 x 250mm)074812Acclaim RSLC 120, C18, 2.2 µ m Analytical, (3.0 x 30mm)071606Acclaim RSLC 120, C18, 2.2 µ m Analytical, (3.0 x 50mm)071605Acclaim RSLC 120, C18, 2.2 µ m Analytical, (3.0 x 100mm)071604Acclaim RSLC 120 C8 Analytical ColumnsAcclaim RSLC C8, 2.2 µ m Analytical (2.1 x 30 mm)072614Acclaim RSLC 120, C8, 2.2µ m, 2.1 x 50 mm072615Acclaim RSLC 120, C8, 2.2µ m, 2.1 x 100 mm072616Acclaim RSLC 120, C8, 2.2µ m, 2.1 x 150 mm072617Acclaim RSLC 120, C8, 2.2µ m Analytical (2.1 x 250mm)074811Acclaim RSLC 120, C8, 2.2µ m, 3 x 30mm072618Acclaim RSLC 120, C8, 2.2µ m, 3 x 50mm072619Acclaim RSLC 120, C8, 2.2µ m, 3 x 100mm072620Acclaim RSLC PA Analytical ColumnsAcclaim RSLC PA, 3 µ m Analytical (3.0 x 33 mm)066274Acclaim PA, 3µ m Analytical, (3.0 x 50mm)068972Acclaim RSLC PA, 3 µ m Analytical (3.0 x 75 mm)066275Acclaim PA, 3 µ m Analyitcal (3.0 x 150 mm)063693Acclaim RSLC PA, 2.2µ m, 2.1 x 50 mm072622Acclaim RSLC PA, 2.2µ m, 2.1 x 30 mm072621Acclaim RSLC PA, 2.2µ m, 2.1 x 100 mm072623Acclaim RSLC PA, 2.2µ m, 2.1 x 150 mm072624Acclaim RSLC PA, 2.2µ m Analytical (2.1 x 250mm)074813Acclaim RSLC PA, 2.2µ m, 3 x 30mm072625Acclaim RSLC PA, 2.2µ m, 3 x 100mm072627Acclaim RSLC PA, 2.2µ m, 3 x 50mm072626Acclaim RSLC PA2 Analytical ColumnsAcclaim RSLC PA2, 3 µ m Analytical (3.0 x 33 mm)066276Acclaim PA2, 3µ m Analytical, (3.0 x 50mm)068973Acclaim RSLC PA2, 3 µ m Analytical (3.0 x 75 mm)066277Acclaim PA2, 3 µ m Analyitcal (3.0 x 150 mm)063705Acclaim RSLC PA2, 2.2µ m Analytical, (2.1 x 30mm)071402Acclaim RSLC PA2, 2.2µ m Analytical (2.1 x 50 mm)068989Acclaim RSLC PA2, 2.2µ m Analytical (2.1 x 100 mm)068990Acclaim RSLC PA2, 2.2µ m Analytical, (2.1 x 150mm)071401Acclaim RSLC PA2, 2.2µ m Analytical (2.1 x 250mm)074814Acclaim RSLC PA2, 2.2 µ m Analytical, (3.0 x 100mm)071607Acclaim RSLC PA2, 2.2 µ m Analytical, (3.0 x 50mm)071608Acclaim RSLC PA2, 2.2 µ m Analytical, (3.0 x 30mm)071609应用谱图:Validated methods can be accelerated without changing the principle of the analysis by using RSLC columns and simple geometric rules. Alkyl phenone analysis shows a 15-fold increase in separation speed with RSLC. Acclaim RSLC columns provide different options for speed, resolution, and pressure optimization compared to standard analytical columns