Development and characterisation of a chemical film actinometer with a large dynamic range for measurements of solar ultraviolet exposure

摘要

Solar ultraviolet (UV) radiation arriving at the Earth’s surface is a biological requirement for most forms of life, but also causes adverse responses in humans,animals and plants in cases of overexposure. Many of the adverse responses are cumulative in nature, and hence solar UV related environmental risk assessment requires quantification of long-term exposures and large UV doses.Dosimetry methods for quantifying solar UV radiation exposure are extremely versatile and cost-effective compared to radiometric methods, and allow timeintegrated doses to be quantified efficiently. Biodosimetry often provides a large dynamic range, but is expensive, labour intensive and time consuming. Chemicalactinometry is a cost and labour effective alternative to biodosimetry, but is disadvantaged for large-dose measurements by its relatively small dynamic range.Poly(dimethyl phenylene oxide) (PPO) film was identified from the literature as a chemical actinometer material with the potential to reduce the labour and costsinvolved in the quantification of large solar radiation doses by means of a larger dynamic range. A fabrication technique for PPO film actinometers was established,and the optical properties of the actinometers were fully characterised.The resulting actinometer provides an efficient method for quantifying either unweighted UVB dose or biologically effective dose. The spectral responseresembles the erythemal action spectrum, and the solar erythemal calibration function is near linear. The PPO film actinometer is therefore very well suited tohuman exposure research, especially for evaluation of chronic responses, or cumulative acute responses in which large-dose measurements are required.The PPO film actinometer now provides an additional tool in the quantification of solar UV radiation exposure. It has equal versatility, and similar costs, labour andequipment requirements to the most commonly employed actinometry methods. The larger dynamic range of PPO film however, reduces labour and costs associated withlarge-dose UV measurements.