Abstract. Since its inception more than two decades ago proton-transfer-reaction mass-spectrometry (PTR-MS) has established itself as a powerful technique for the measurements of volatile organic compounds (VOCs) providing high time resolution, high sensitivity measurements without any sample pre-treatment. As this technology has matured and its application become more widespread there is a growing need for accurate and traceable calibration to ensure measurement comparability. As a result of the large number of VOCs detectable with PTR-MS it is impractical to have a calibration standard or standards that cover all observable compounds. However, recent work has demonstrated that quantitative measurements of uncalibrated compounds are possible provided that the transmission curve is sufficiently constrained. To enable this, a novel multi-component gas reference material containing 20 compounds that spans the molecular weight range of 32 to 671 has been developed. This development and the compositional evolution of this reference material are described along with an evaluation of the accuracy and stability. This work demonstrates that for the majority of components the accuracy is < 5 % (most < 3 %; < 10 % for hexamethylcyclotrisiloxane (D3-siloxane) and 1,2,4-trichlorobenzene (1,2,4-TCB)) with stabilities of > 2 years (> 1 year for acetonitrile, methanol and PFTBA).
Abstract. Since its inception more than 2 decades ago, proton-transfer-reaction mass spectrometry (PTR-MS) has established itself as a powerful technique for the measurements of a wide range of volatile
organic compounds (VOCs) with high time resolution and low detection limits
and without the need for any sample pre-treatment. As this technology has
matured and its application become more widespread, there is a growing need for accurate and traceable calibration to ensure measurement comparability.
As a result of the large number of VOCs detectable with PTR-MS, it is impractical to have a calibration standard or standards that cover all
observable compounds. However, recent work has demonstrated that
quantitative measurements of uncalibrated compounds are possible provided
that the transmission curve is accurately constrained. To enable this, a
novel traceable multi-component gas reference material containing 20
compounds spanning a mass range of 32 to 671 has been developed. The
development and compositional evolution of this reference material are described along with an evaluation of its accuracy and stability. This work
demonstrates that for the majority of components the accuracy is < 5 % (most < 3 %; < 10 % for
hexamethylcyclotrisiloxane (D3-siloxane) and 1,2,4-trichlorobenzene – 1,2,4-TCB) with stabilities of > 2 years (> 1 year for acetonitrile, methanol and perfluorotributylamine – PFTBA).
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