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Waters ACQUITY UPLC CSH Phenyl-Hexyl Column, 130A, 1.7 um, 3 mm X 100 mm, 1/pk - 186005411

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Waters™ ACQUITY UPLC CSH Phenyl-Hexyl Column, 130Å, 1.7 µm, 3 mm X 100 mm, 1/pk

Product Number: 186005411

Specifications:

Chemistry Phenyl
Separation Mode Reversed Phase
Particle Substrate Hybrid
pH Range Min 1 pH
pH Range Max 11 pH
Maximum Pressure 18000 psi (1240 Bar)
Endcapped Yes
Bonding Technology Phenyl-Hexyl
Silanol Activity Low
Particle Shape Spherical
Particle Size 1.7 µm
Endfitting Type Parker-style
Pore Size 130 Å
Format Column
Surface Area 185
System UHPLC, UPLC
Particle Technology CSH
USP Classification L11
Inner Diameter 3 mm
Length 100 mm
Carbon Load 14%
eCord Yes
UNSPSC 41115709
Brand ACQUITY UPLC
Product Type Columns
Units per Package 1 pk

ACQUITY CSH Phenyl-Hexyl columns are used to provide alternative analyte selectivity and are a valuable tool for method development. The trifunctionally bonded C6 phenyl ligand is a robust, low bleed sorbents that selectively retains polyaromotic compounds through pi-pi interactions.

Charged Surface Hybrid [CSH] Particle Technology

CSH™ Technology is the next evolution of UPLC® and HPLC particle technology. It affords outstanding batch-to-batch reproducibility, extended pH stability and seamless transferability between UPLC, analytical HPLC and Preparative HPLC system platforms.

Powered by CSH Technology, the ACQUITY UPLC® CSH and XSelect™ HPLC column families provide separation scientists with a wider range of selectivities as well as industry-leading performance in simple, LC/MS-friendly mobile phases.

The progression and evolution of materials science has led to significant advances in chromatographic materials, the most recent of which being hybrid particle technology. Hybrid-based packing materials offer exceptional peak shape and efficiency as well as industry-leading chemical stability. Charged Surface Hybrid [CSH] Technology is the latest advancement in hybrid materials that utilizes a controlled, low-level surface charge to provide enhanced selectivity and exceptional peak shape, particularly in low ionic-strength mobile phases.

The 1.7 µm Charged Surface Hybrid (CSH™) particle is Waters third generation hybrid particle technology. Based on Waters Ethylene Bridged Hybrid (BEH) particle technology, CSH particles incorporate a low level surface charge that improves sample loadability and peak asymmetry in low-ionic-strength mobile phases, while maintaining the mechanical and chemical stability inherent in the BEH particle technology.

The advantages of CSH Technology UPLC chromatography columns include:

  • Superior peak shape for basic compounds
  • Increased loading capacity
  • Rapid column equilibration after changing mobile-phase pH
  • Improved batch-to-batch reproducibility
  • Exceptional stability at low and high pH

CSH particle technology is also available in HPLC particle sizes (3.5 and 5 µm) in the XSelect™ family of HPLC columns, enabling seamless transfer between HPLC and UPLC® technology platforms.

ACQUITY UPLC columns

ACQUITY UPLC columns are the most technologically advanced LC columns ever created and are the only columns designed, tested and certified to withstand the pressures of UPLC Technology. Based upon the highly efficient 1.7 µm Bridged Ethyl Hybrid (BEH) particles and 1.8 µm High Strength Silica (HSS) particles, these columns are the first and only columns that allow separation scientists to achieve maximum speed, sensitivity and resolution without compromise. The particles and chemistries of the ACQUITY UPLC column family were carefully chosen to produce the ideal combination of ultra-performance efficiencies, wide pH range and complementary selectivities. ACQUITY UPLC BEH columns and ACQUITY UPLC HSS columns are the only columns recommended for use with ACQUITY UPLC Systems.

There is more to creating a UPLC particle than synthesizing a small particle. Many HPLC particles do not possess the mechanical stability and structural integrity to withstand UPLC operating pressures (e.g., 15000 psi/1000 bar). Why is pressure tolerance important? In order to realize the efficiency gains of sub-2 μm particles, the ability to routinely operate at higher linear velocities (e.g., higher flow rates) is required. These higher linear velocities combined with small, sub-2 μm particles result in higher operating backpressures. Waters has created two highly efficient, pressure-tolerant UPLC particles: the 1.7 μm Ethylene Bridged Hybrid (BEH) particle and the 1.8 μm High Strength Silica (HSS) particle.

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  • Model: 186005411
  • Manufactured by: Waters