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Key Documents

20083-U

Supelco

Carbotrap® 202 Thermal Desorption Tube

greener alternative

stainless steel, O.D. x I.D. x L 1/4 in. × 3 1/2 in., preconditioned, pkg of 10 ea

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About This Item

Código UNSPSC:
41104008
NACRES:
NB.24

product name

Carbotrap® 202, stainless steel TD tube, O.D. × L 1/4 in. × 3 1/2 in., preconditioned, pkg of 10 ea

Materiais

stainless steel TD tube

descrição

Sealed with TDS³ Storage Container

linha de produto

Carbotrap®

Características

preconditioned

embalagem

pkg of 10 ea

características do produto alternativo mais ecológico

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

sustainability

Greener Alternative Product

técnica(s)

active air sampling: suitable

D.E. × C

1/4 in. × 3 1/2 in.

matriz

Carbotrap® 202 (Packed with Carbopack B & Carbopack C)
Carbotrap® B graphitized carbon black (GCB)
Carbotrap® C graphitized carbon black (GCB)

adequação

suitable for (C5-C20 Compounds in Air)

aplicação(ões)

air monitoring
environmental
industrial hygiene

compatibilidade

for use with PerkinElmer, Markes, DANI, OI Analytical, and Shimadzu Instruments

categoria alternativa mais ecológica

Procurando produtos similares? Visita Guia de comparação de produtos

Descrição geral

We are committed to bringing you greener alternative products, which adhere to one or more of The 12 Principles of Greener Chemistry. Thermal desorption tubes are reusable at least 50 to 100 times, and reduces the usage of accessories like transfer vials, caps, and pipette tips, thus aligns with “Waste Prevention”. Also, these tubes eliminate the usage of toxic solvents like CS2 to extract the VOCs of interest, and thus aligns with “Safer Solvents and Auxiliaries” principle. Click here for more information.

Informações legais

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

Código de classe de armazenamento

11 - Combustible Solids

Classe de risco de água (WGK)

nwg

Ponto de fulgor (°F)

Not applicable

Ponto de fulgor (°C)

Not applicable


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Florian Gahleitner et al.
Bioanalysis, 5(18), 2239-2247 (2013-09-24)
In-community non-invasive identification of asthma-specific volatile organic compounds (VOCs) in exhaled breath presents opportunities to characterize phenotypes, and monitor disease state and therapies. The feasibility of breath sampling with children and the preliminary identification of childhood asthma markers were studied.
Yifei Sun et al.
Journal of environmental sciences (China), 25(1), 213-219 (2013-04-17)
A group parameter approach using "total organic halogen" is effective for monitoring gaseous organic halogen compounds, including fluorine, chlorine, and bromine compounds, generated from combustion. We described the use of barrier-discharge radiofrequency-helium-plasma/atomic emission spectrometry, for the detection of semi- and
Gary Strobel et al.
Biotechnology letters, 35(4), 539-552 (2012-12-19)
The construction and testing of a unique instrument, the Paleobiosphere, which mimics some of the conditions of the ancient earth, is described. The instrument provides an experimental testing system for determining if certain microbes, when provided an adequate environment, can
S Ghittori et al.
Journal of toxicology and environmental health, 38(3), 233-243 (1993-03-01)
Benzene concentrations in urine samples (Cu, ng/L) from 110 workers exposed to benzene in chemical plants and gasoline pumps were determined by injecting urine supernate into a gas chromatograph. The urine was saturated with anhydrous N2SO4 to facilitate the passage
W A McClenny et al.
Journal of chromatography. A, 813(1), 101-111 (1998-08-11)
An evaluation of performance criteria for US Environmental Protection Agency Compendium Method TO-17 for monitoring volatile organic compounds (VOCs) in air has been accomplished. The method is a solid adsorbent-based sampling and analytical procedure including performance criteria for four merit

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