A measurement strategy for non-dispersive ultra-violet detection of formaldehyde in indoor air: spectral analysis and interferent gases | Health & Environmental Research Online (HERO)

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HERO ID

3267281

Reference Type

Journal Article

Title

A measurement strategy for non-dispersive ultra-violet detection of formaldehyde in indoor air: spectral analysis and interferent gases

Author(s)

Davenport, JJ; Hodgkinson, J; Saffell, JR, JR; Tatam, RP

Year

2016

Is Peer Reviewed?

Journal

Measurement Science and Technology
ISSN: 0957-0233
EISSN: 1361-6501

Volume

Issue

DOI

10.1088/0957-0233/27/1/015802

Web of Science Id

WOS:000372457700035

Abstract

We have conducted an extensive review of published spectra in order to identify a region with potential for detection of formaldehyde in indoor air. 85 chemicals and chemical groups common to the indoor environment were identified, 32 of which had absorption spectra in the UV-vis region. Of these, 11 were found to overlap with the formaldehyde UV region. It was found that the region between 320 to 360 nm is relatively free from interference from indoor gases, with NO2 being the only major interferent. A method is proposed for a low resolution (3 nm) spectroscopic detection method, specifically targeted at formaldehyde absorption features at 327 nm with a reference at 334 nm. 32 ppb of NO2 was found to have a cross-sensitivity with equivalent magnitude to 100 ppb of formaldehyde. A second reference at 348 nm would reduce this cross-sensitivity.

Keywords

formaldehyde; gas sensing; non-dispersive ultra-violet; NDUV; UV spectroscopy