Thermo Scientific AppsLab Library: A fast, cost-effective HS-GC-FID method for the analysis of ethylene oxide in surgical-style face masks

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a fast costeffective hsgcfid method for analysis ethylene oxide surgicalstyle face masks

Description

A fast, cost-effective analytical method suitable for the analysis of residual ethylene oxide and 2-chloroethanol in face masks using static headspace (HS) gas chromatography (GC) with flame ionization detection (FID).

Market:	Other
Keywords:	FID, GC, Headspace, Flame Ionization Detection, Gas Chromatography, valve and loop, TriPlus 500 HS, carcinogenic, ethylene oxide, face masks, GB 19083-2010, GBT 16886.7-2015
Matrix:	Face masks
Author:	David Lee; Cristian Cojocariu
Affiliation:	Thermo Fisher Scientific

Uploaded on 10/1/2020.

For Research Use Only. Not for use in diagnostic procedures.