The non-polar 007-1 dimethylpolysiloxane phase, which separates compounds according to boiling point, is probably the most frequently used phase type in GC. Bonding and crosslinking this general purpose GC phase increases the resistance to degradation by rinsing, large solvent injections and the deposition of non-volatiles. The 007-1 phase offers excellent efficiency and thermal stability. In addition, this non-polar phase is less susceptible to oxidation and hydrolysis than phases incorporating more polar functional groups.
- Bonded and Crosslinked
- Non polar
- Excellent thermal stability
- Comparable to: SE-52, SE-54, OV-73
- Similar phases: DB-5, Rtx -5, HP-5, Ultra-5, SPB-5, CPSil-8CB, AT-5, BP-5
- USP Phase Specification: G27
Style: PHAT™
Type: Capillary
Specification: 5% Phenyl / 95% Methylpolysiloxane
Film Thickness: 0.25 μm
Length: 30 m
Brand: Quadrex
Inner Diameter: 0.25 mm
Mfg. No.: 007-5-30-0.25F
Similar to Agilent SE-52, Agilent SE-54, Ohio Valley OV-73
Boiling point column, general purpose: hydrocarbons, solvents, waxes, pharmaceuticals, flavors, etc.
007-5, (5% PHENYL) METHYLPOLYSILOXANE
The 007-5 phase is a (5% phenyl) methylpolysiloxane polymer. Like the 007-1 dimethylpolysiloxane phase, the 007-5 phase is a widely used general purpose GC phase ideal for a broad range of applications. The presence of the phenyl groups provides induced dipole interactions leading to degrees of increased retention for aromatic solutes. A 5% phenyl substitution causes a nominal increase in polarity; yet the 007-5 phase displays the attributes of a non-polar phase.
The non-polar 007-5 phase, which separates compounds according to boiling point, is another frequently used phase type in GC. Bonding and crosslinking this general-purpose GC phase increases the resistance to degradation by rinsing, large solvent injections and the deposition of non-volatiles. The 007-5 phase offers excellent efficiency and thermal stability. In addition, this non-polar phase is less susceptible to oxidation and hydrolysis than phases incorporating more polar functional groups.
