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57362-U

Supelco

SPME Fiber Assortment Kit

greener alternative

DVB/CAR/PDMS, PDMS/DVB, PDMS, CAR/PDMS, for use with autosampler, Nitinol-core (NIT), 23 ga, 65 μm (PDMS/DVB), 100 μm (PDMS), 50 μm (DVB layer in DVB/CAR/PDMS), 30 μm (CAR/PDMS layer in DVB/CAR/PDMS), 85 μm (CAR/PDMS)

Synonym(s):

Solid Phase Microextraction Fiber Kit

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About This Item

UNSPSC Code:
41115854
NACRES:
NB.21

product name

SPME fiber assortment kit 5, needle size 23 ga, for use with autosampler

material

assorted colors hub
fused silica fiber

needle size

23 ga

greener alternative product characteristics

Waste Prevention
Safer Solvents and Auxiliaries
Learn more about the Principles of Green Chemistry.

sustainability

Greener Alternative Product

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100 μm (PDMS)
30 μm (CAR/PDMS layer in DVB/CAR/PDMS)
50 μm (DVB layer in DVB/CAR/PDMS)
65 μm (PDMS/DVB)
85 μm (CAR/PDMS)

technique(s)

solid phase microextraction (SPME): suitable

fiber L

1 cm

matrix active group

CAR/PDMS coating
DVB/CAR/PDMS coating
PDMS coating
PDMS/DVB coating

application(s)

food and beverages

compatibility

for use with autosampler

greener alternative category

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General description

We are committed to bringing you greener alternative products, which adhere to one or more of The 12 Principles of Greener Chemistry. This is a Solid Phase Microextraction (SPME) technology product. SPME is one of the greener technologies for sample preparation as it is solvent free extraction technology and SPME fibres are re-usable and generates as little waste as possible, thus aligns with "Waste Prevention”, and ″Safer Solvents and Auxiliaries″. Click here for more information.

Components

SPME Fiber Assortment Kit 5 contains one fiber of each:
  • 65μm PDMS/DVB coating
  • 50/30μm DVB/Carboxen/PDMS coating
  • 85μm Carboxen/PDMS coating
  • 100μm PDMS coating

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Marghereth Saverini et al.
Journal of photochemistry and photobiology. B, Biology, 108, 8-15 (2012-01-20)
The presence of (±)α-pinene, (+)β-pinene, (+)3-carene, and R-(+)limonene terpenes in wastewater of a citrus transformation factory was detected and analyzed, in a previous study, by using Solid Phase Micro-extraction (SPME) followed by GC analyses. Purpose of that research was to
M A Stack et al.
Chemosphere, 41(11), 1821-1826 (2000-11-01)
Solid phase micro extraction (SPME) was applied to the determination of selected trihalomethanes (THMs), chloroform, bromodichloromethane, dibromochloromethane, bromoform, in potable and recreational waters. The selected samples were environmentally significant due to mandatory limits imposed by regulatory agencies. Extraction of the
Mona Syhre et al.
Tuberculosis (Edinburgh, Scotland), 88(4), 317-323 (2008-02-26)
Worldwide, tuberculosis (TB) kills nearly 2 million people annually, yet rapid diagnosis still relies on a 100-year-old method of sputum staining for acid-fast bacilli. The advent of solid phase micro-extraction and gas chromatography/mass spectrometry makes it possible to systematically investigate
Gustavo Charry-Parra et al.
Journal of food science, 76(2), C205-C211 (2011-05-04)
A powerful technique was developed for the identification and quantification of 9 volatile compounds of beer, using headspace solid phase micro-extraction (HS/SPME) and gas chromatograph coupled to a mass spectrometer and a flame ionization detector (GC/MS/FID). Optimized parameters included type
Antonia María Carro et al.
Analytical and bioanalytical chemistry, 394(3), 893-901 (2009-04-11)
The headspace solid-phase micro-extraction technique with on-fibre derivatisation followed by gas chromatography-tandem mass spectrometry has been evaluated for the analysis of 1,3-dichloro-2-propanol in water. An asymmetric factorial design has been performed to study the influence of five experimental factors: extraction

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