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28476-U

Supelco

SLB®-5ms Capillary GC Column

L × I.D. 30 m × 0.25 mm, df 1.00 μm

Synonym(s):

GC column, SPB-5, 5% diphenyl, mass spec

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About This Item

UNSPSC Code:
12000000
eCl@ss:
32119290
NACRES:
SB.54

Pricing and availability is not currently available.

material

fused silica

Quality Level

Agency

Standard Method 6040D
EN 2005/108/EC
EPA 610,625,8015,8082,8100,8141,8270,OLM04.2 SVOA
EPA TO-13,IP-8,8270,525.2,608.1/608.2,608/8081/OLM04.2 PEST
JMHLW
NIOSH 2530,5503
OSHA 62
meets requirements for USP G27 and G36
suitable for EPA 1613

reg. compliance

FDA LIB 4423

parameter

-60-340 °C temperature (isothermal)
-60-360 °C temperature (programmed)

Beta value

63

df

1.00 μm

technique(s)

GC/MS: suitable
gas chromatography (GC): suitable

L × I.D.

30 m × 0.25 mm

matrix active group

Bonded and highly crosslinked; silphenylene polymer virtually equivalent in polarity to poly(5% diphenyl/95% dimethyl siloxane) phase

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This Item
28564-U28482-U28466-U
matrix active group

Bonded and highly crosslinked; silphenylene polymer virtually equivalent in polarity to poly(5% diphenyl/95% dimethyl siloxane) phase

matrix active group

Bonded and highly crosslinked; silphenylene polymer virtually equivalent in polarity to poly(5% diphenyl/95% dimethyl siloxane) phase

matrix active group

Bonded and highly crosslinked; silphenylene polymer virtually equivalent in polarity to poly(5% diphenyl/95% dimethyl siloxane) phase

matrix active group

Bonded and highly crosslinked; silphenylene polymer virtually equivalent in polarity to poly(5% diphenyl/95% dimethyl siloxane) phase

parameter

-60-340 °C temperature (isothermal), -60-360 °C temperature (programmed)

parameter

-60-340 °C temperature (isothermal), -60-360 °C temperature (programmed)

parameter

-60-340 °C temperature (isothermal), -60-360 °C temperature (programmed)

parameter

-60-340 °C temperature (isothermal), -60-360 °C temperature (programmed)

column type

capillary non-polar

column type

capillary non-polar

column type

capillary non-polar

column type

capillary non-polar

application(s)

agriculture
chemicals and industrial polymers
cleaning products
clinical
cosmetics
environmental
flavors and fragrances
food and beverages
forensics and toxicology
industrial hygiene
life science and biopharma
personal care
petroleum
pharmaceutical (small molecule)

application(s)

agriculture
chemicals and industrial polymers
cleaning products
clinical
cosmetics
environmental
flavors and fragrances
food and beverages
forensics and toxicology
industrial hygiene
life science and biopharma
personal care
petroleum
pharmaceutical (small molecule)

application(s)

agriculture
chemicals and industrial polymers
cleaning products
clinical
cosmetics
environmental
flavors and fragrances
food and beverages
forensics and toxicology
industrial hygiene
life science and biopharma
personal care
petroleum
pharmaceutical (small molecule)

application(s)

agriculture
chemicals and industrial polymers
cleaning products
clinical
cosmetics
environmental
flavors and fragrances
food and beverages
forensics and toxicology
industrial hygiene
life science and biopharma
personal care
petroleum
pharmaceutical (small molecule)

agency

Standard Method 6040D, EPA 610,625,8015,8082,8100,8141,8270,OLM04.2 SVOA, JMHLW, OSHA 62, suitable for EPA 1613, EN 2005/108/EC, NIOSH 2530,5503, EPA TO-13,IP-8,8270,525.2,608.1/608.2,608/8081/OLM04.2 PEST, meets requirements for USP G27 and G36

agency

Standard Method 6040D, EN 2005/108/EC, EPA 610,625,8015,8082,8100,8141,8270,OLM04.2 SVOA, EPA TO-13,IP-8,8270,525.2,608.1/608.2,608/8081/OLM04.2 PEST, JMHLW, NIOSH 2530,5503, OSHA 62, meets requirements for USP G27 and G36, suitable for EPA 1613

agency

Standard Method 6040D, EN 2005/108/EC, EPA 610,625,8015,8082,8100,8141,8270,OLM04.2 SVOA, EPA TO-13,IP-8,8270,525.2,608.1/608.2,608/8081/OLM04.2 PEST, JMHLW, NIOSH 2530,5503, OSHA 62, meets requirements for USP G27 and G36, suitable for EPA 1613

agency

Standard Method 6040D, EN 2005/108/EC, EPA 610,625,8015,8082,8100,8141,8270,OLM04.2 SVOA, EPA TO-13,IP-8,8270,525.2,608.1/608.2,608/8081/OLM04.2 PEST, JMHLW, NIOSH 2530,5503, OSHA 62, meets requirements for USP G27 and G36, suitable for EPA 1613

General description

Application: The 5% phenyl equivalent phase provides a boiling point elution order with a slight increase in selectivity, especially for aromatic compounds. The low bleed characteristics, inertness, and durable nature make it the column of choice for environmental analytes (such as semivolatiles, pesticides, PCBs, and herbicides) or anywhere a low bleed non-polar column is required.
USP Code: This column meets USP G27 and G36 requirements.
Phase:
  • Bonded and highly crosslinked
  • Silphenylene polymer virtually equivalent in polarity to poly(5% diphenyl/95% dimethyl siloxane)
Temp. Limits:
  • ≤0.32 mm I.D.: -60 °C to 340 °C (isothermal) or 360 °C (programmed)
  • ≥0.53 mm I.D.: -60 °C to 330 °C (isothermal) or 340 °C (programmed)

Other Notes

We offer a variety of chromatography accessories including analytical syringes

Legal Information

SLB is a registered trademark of Merck KGaA, Darmstadt, Germany

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Rasha M Faty et al.
Molecules (Basel, Switzerland), 20(2), 1842-1859 (2015-01-28)
Bromination of N-substituted homophthalimides and tetrahydropyrido[4,3-d]- pyrimidine-5,7-diones produces 4,4-dibromohomophthalimide and 8,8-dibromo-tetrahydropyrido[4,3-d]pyrimidine-5,7-dione derivatives, respectively, that can be used as precursors for spiro derivatives. The dibromo derivatives react with different binucleophilic reagents to produce several spiroisoquinoline and spirotetrahydropyrido[4,3-d]- pyrimidine-5,7-dione derivatives, respectively. Reaction
Lisa Simonsson et al.
Chemphyschem : a European journal of chemical physics and physical chemistry, 11(5), 1011-1017 (2010-03-20)
We investigate the Ca(2+)-triggered fusion of lipid vesicles site-selectively tethered to a DNA-modified supported lipid bilayer array, with the DNA strands designed such that hybridization occurs in a zipperlike fashion. Prior to the addition of Ca(2+), which is observed to
Annie Xu Zeng et al.
Analytica chimica acta, 803, 166-173 (2013-11-13)
Due to their distinct chemical properties, the application of ionic liquid (IL) compounds as gas chromatography (GC) stationary phases offer unique GC separation especially in the analysis of geometric and positional fatty acid methyl ester (FAME) isomers. Elution behaviour of
Sophie Duclos et al.
Proteomics, 11(5), 854-864 (2011-02-01)
The essential roles of the endovacuolar system in health and disease call for the development of new tools allowing a better understanding of the complex molecular machinery involved in endocytic processes. We took advantage of the floating properties of small
Noelia Aldai et al.
Journal of agricultural and food chemistry, 66(4), 842-855 (2018-01-02)
Incubation of DHA with sheep rumen fluid resulted in 80% disappearance in 6 h. The products were analyzed as their fatty acid (FA) methyl esters by GC-FID on SP-2560 and SLB-IL111 columns. The GC-online reduction × GC and GC-MS techniques

Articles

Sigma-Aldrich presents an article about the analysis of melamine and related compounds in dog food with the use of more economical gas chromatography-mass spectrometry (GC-MS) instrumentation.

Protocols

US EPA Method 8015 (modified): GC Analysis of Gasoline Range Organics (GRO) on SLB®-5ms, Direct Injection

There are three types of analyses: GRO, DRO, and TPH. The published methods are simply variations of these to meet the different analytical needs of the individual agencies.

There are three types of analyses: GRO, DRO, and TPH. The published methods are simply variations of these to meet the different analytical needs of the individual agencies.

There are three types of analyses: GRO, DRO, and TPH. The published methods are simply variations of these to meet the different analytical needs of the individual agencies.

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Related Content

This page is intended to make it easier to find the consumables you need based on the analytical method you’re using. Methods included on this page come from the EPA, Standard Methods and ASTM.

This page is intended to make it easier to find the consumables you need based on the analytical method you’re using. Methods included on this page come from the EPA, Standard Methods and ASTM.

This page is intended to make it easier to find the consumables you need based on the analytical method you’re using. Methods included on this page come from the EPA, Standard Methods and ASTM.

This page is intended to make it easier to find the consumables you need based on the analytical method you’re using. Methods included on this page come from the EPA, Standard Methods and ASTM.

Chromatograms

suitable for GCsuitable for GCsuitable for GCsuitable for GC

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