Unisol Amide HPLC Columns, Bonna-Agela Technologies

Supplier: Agela Technologies
VH931005-0 VH950505-0 VH952530-0 VH951520-0 VH930302-0 VH951005-0 VH951030-0 VH931505-0 VH951505-0 VH952520-0 VH930502-0 VH952510-0 VH951502-0 VH952505-0 VH951530-0 VH931002-0 VH950502-0 VH931502-0 VH951510-0 VH951002-0 VH930505-0
97023-932EA 34187.17 USD
97023-932 97023-922 97023-878 97023-006 97023-886 97023-876 97023-004 97022-980 97023-882 97023-014 97023-872 97023-894 97023-000 97023-012 97022-984 97023-010 97022-998 97023-906 97023-914 97023-926 97023-902
Unisol Amide HPLC Columns, Bonna-Agela Technologies
Chromatography Columns
Unisol Amide stationary phase is made from high-purity spherical silica particles bonded with a neutral hydrophilic amide group.

  • Metal Impurity: <30 ppm
  • Pore Size: 100 Å
  • Specific Surface Area: 410 m²/g
  • Carbon Loading: 8 %
  • Single End-capping
  • pH range: 2.0 to 8.0

Unisol Amide columns offer strong retention of polar compounds in HILIC mode. They provide unique selectivity and are complementary to conventional reversed phase. Unisol Amide columns ensure more robust and reproducible performance than silica and amino stationary phase. They are 100% aqueous and 100% organic solvents compatible.

It can be used for normal phase, reversed phase, or hydrophilic interaction HPLC. The Unisol Amide (NP) column is a good replacement for NH₂ and silica columns that are currently marketed as HILIC. Compared with traditional silica and NH₂ columns, the Unisol Amide columns have better reproducibility and column lifetime.

It is especially useful for the separation of strong hydrophilic compounds, whether they are acidic, basic, or neutral. It is compatible with aqueous mobile phases in the pH range of 2.0 to 8.0. Unisol Amide presents unique selectivity for many molecules because of its difference in the separation mechanism from most of the conventional stationary phases.
Order Now

Learn more

About VWR

Avantor is a vertically integrated, global supplier of discovery-to-delivery solutions for...

Learn more About VWR