Exsil 300
Alternative to Vydac TP phases.
Pore Size: 300(+/-10) Å,
Pore Volume: 0.78 ml/g,
Surface Area: 100 m2/g
Particle sizes: 3, 5 and 10 μm
Phases: Silica, C4, C8, C18, PAH and HAAX.
- Alternative to Vydac TP.
- Available in 3, 5, 7 and 10 μm particle sizes.
- Wide range of bonded phases.
A robust, spherical, alternative to Vydac TP phases for the separation of biological macromolecules. A complete range of reversed phase media ( ODS, Octyl and Butyl )
are complimented by the unique High Affinity Anion Exchanger ( HAAX ) for protein separation and the polymeric PAH phase for polyaromatic hydrocarbon analysis.
The availability of 3μm phases brings fast analysis to the biochemist.
Exsil 300 Si
Exsil 300 C4
Exsil 300 C8
Exsil 300 PAH
Bulk media:
300 Å,
100 m2/g
Polymeric C18 Bonding
You need more informations please ask : [email protected]
Column Dimension: 250 x 4 mm
Conditions:
Flow: 2.0 ml/min
Pressure at start: 265 bar
Detection: UV 254nm or Fluorescence
Injection: 5-20 µl
Eluent: Acetonitril/Water
Gradient:
0 min 50% ACN
5 min 50% ACN
15 min 85% ACN
20 min 100% ACN
Exsil 200 PAH
Bulk media:
200 Å,
200 m2/g
Polymeric C18 Bonding
You need more informations please ask : [email protected]
Column Dimension: 150 x 4.6 mm
Conditions:
Flow: 1.5 ml/min
Pressure at start: 110 bar
Detection: UV 254nm or Fluorescence
Injection: 1.5 µl
Eluent: Acetonitril/Water
Gradient:
0 min 50% ACN
3 min 50% ACN
10 min 100% ACN
20 min 100% ACN
Exsil 300 HAAX
Exsil HAAX has been evaluated for the separation of carbohydrates and related compounds and found to give superior performance to conventional aminopropyl bonded phases.
Specifically it shows
- Higher efficiencies
- Excellent selectivity
- Better stability to hydrolysis which allows the use of aggressive solvents
- Improved baseline response when used with the ELSD.
Exsil 300 HAAX (High Affinity Anion Exchanger) is a 300Ǻ spherical silica bonded with a polyamine coating. It was developed for anion exchange chromatography of proteins and its use in this context has been reported previously. In addition to providing good protein chromatography, the phase appeared to be robust and could withstand 30 column volumes of 0.1M sodium hydroxide before exhibiting deterioration.
As amine phases are used to separate carbohydrates, the HAAX phase was evaluated for this application. It was envisaged that the intrinsic stability might give the HAAX phase an advantage over conventional aminopropyl phases in terms of lifetime and a lower background on the ELSD.
Performance with ELSD
Conventional aminopropylsilane bonded silicas have a tendency to give high baseline levels and noise when used on an ELSD, due probably to slow leakage of the phase. The chromatograms in Fig 1 show that the HAAX phase had both a lower baseline level ( 4.5 vs 56 mV) and better signal to noise (by visual inspection). This is borne out in subsequent chromatograms under gradient elution where baseline drift is well constrained.
Ruggedness
To test the ruggedness of the phase, a column was washed with 500 column volumes of 85% MeCN / 15% of pH 11 ammonia followed by 500 column volumes of 85% MeCN/ 15% of 1% TFA. The results (Fig 3) show little difference in the chromatography before and after this treatment illustrating that the high stability seen in ion exchange mode is preserved in this application. In addition, the phase has been used with acetone/ water mixtures with apparently no deterioration.
Applications
- Soya Milk Sugars were separated both isocratically ( Fig 4) and by gradient elution with excellent results. The isocratic results compare with the Prevail Carbohydrate run under gradient conditions (Chrom 9417).
- Corn syrup is readily and quickly resolved into its oligomers under gradient conditions with minimal baseline drift (Fig 5).
- Nitrogen analogues of sugars, also known as polyhydroxyalkaloids such as Swainsonine and Castanospermine occur in numerous plants and have been ascribed a wide range of effects including anti-viral and anti-cancer. A separation of such compounds has been achieved on the HAAX phase (Fig 6) and the phase has been used in an LC/MS study of the compounds in Hyacinthoides non-scripta.