Abstract
Indoor air quality monitoring as it relates to the domestic setting is an integral part of human exposure monitoring and health risk assessment. Hence there is a great need for easy to use, fast and economical indoor air quality sensors to monitor the volatile organic compound composition of the air which is known to be significantly perturbed by the various source emissions from activities in the home. To meet this need, paper-based colorimetric sensor arrays were deployed as volatile organic compound detectors in a field study aiming to understand which activities elicit responses from these sensor arrays in household settings. The sensor array itself is composed of pH indicators and aniline dyes that enable molecular recognition of carboxylic acids, amines and carbonyl-containing compounds. The sensor arrays were initially deployed in different rooms in a single household having different occupant activity types and levels. Sensor responses were shown to differ for different room settings on the basis of occupancy levels and the nature of the room emission sources. Sensor responses relating to specific activities such as cooking, cleaning, office work, etc were noted in the temporal response. Subsequently, the colorimetric sensor arrays were deployed in a broader study across 9 different households and, using multivariate analysis, the sensor responses were shown to correlate strongly with household occupant activity and year of house build. Overall, this study demonstrates the significant potential for this type of simple approach to indoor air pollution monitoring in residential environments.
Highlights
Over 2 million healthy life years are lost annually across the European Union as a result of indoor air pollution [1]
Colorimetric sensor arrays for monitoring volatile organic compounds indoors We recently reported a colorimetric sensing approach to measure cooking associated air pollution indoors
Colorimetric sensor arrays for monitoring volatile organic compounds indoors Two parallel sensor samples were subsequently collected from 9 domestic kitchens over a 48 h sampling period
Summary
Over 2 million healthy life years are lost annually across the European Union as a result of indoor air pollution [1]. In developed countries we spend 80–90% of our time indoors, where our exposure to air pollution can be substantially greater than exposures occurring outdoors. The majority of this time indoors is spent in the home, individual exposure to air pollution is strongly influenced by household conditions and activities [2]. The concentrations of many air pollutants can be higher in homes than elsewhere, following activities like cooking and cleaning.
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