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Novel Technique for Measuring Low Molecular Weight Chemicals in Indoor Dust

Department of Health and Environment, Division of Occupational and Environmental Medicine, Faculty of Health Sciences, Linköping University, Linköping, Sweden

Ali Reza Nosratabadi

Department of Health and Environment, Division of Occupational and Environmental Medicine, Faculty of Health Sciences, Linköping University, Linköping, Sweden

Verner Lagesson

Department of Health and Environment, Division of Occupational and Environmental Medicine, Faculty of Health Sciences, Linköping University, Linköping, Sweden

Nicola Murgia

Department of Health and Environment, Division of Occupational and Environmental Medicine, Faculty of Health Sciences, Linköping University, Linköping, Sweden

Per Leanderson

Department of Health and Environment, Division of Occupational and Environmental Medicine, Faculty of Health Sciences, Linköping University, Linköping, Sweden

Christer Tagesson

Department of Health and Environment, Division of Occupational and Environmental Medicine, Faculty of Health Sciences, Linköping University, Linköping, Sweden

A new technique is described which can measure low molecular weight compounds adsorbed onto dust parti cles in a simple yet accurate way. The technique, gas chromatography-ultraviolet spectrometry (GC-UV), com prises a one-stage thermal desorption oven, a gas flow cell with a miniaturised GC column, and a nitrogen- flushed photo diode array (PDA) detector for fast UV spectra recording. The dust sample is thermally de sorbed in the oven and the compounds released are flushed onto the GC column by means of a carrier gas stream. The separated compounds are then registered by the PDA detector and identified by their characteristic gas-phase UV spectra. This method enables the analysis of volatile organic as well as inorganic compounds ad sorbed onto dust particles, many of which are difficult to analyse together in one single analysis using conven tional methods. For example, both nitric oxide and am monia can be analysed, as well as hydrogen sulphide, pyridine, 2-furaldehyde, 2-methylfuran, and isoprene. It is concluded that GC-UV may be used as an alternative or to complement other methods for measuring chemi cals in indoor dusts, thus improving survey and control of the human exposure to particle-bound irritants and other chemicals.

Key Words: Dust • Indoor air • Thermal desorption • Gas chromatography-ultraviolet spectrometry • Nitric oxide

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