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Issue 2, 2011
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Effects of solar UV and climate change on materials

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Increased solar ultraviolet radiation (UV) reaches the surface of the Earth as a consequence of a depleted stratospheric ozone layer and changes in factors such as cloud cover, land-use patterns and aerosols. Climate change is expected to result in a 1.1–6.4 °C increase in average temperature by the end of this century, depending on location. Increased levels of UV radiation, especially at high ambient temperatures, are well-known to accelerate the degradation of plastics, rubber and wood materials, thereby reducing their useful lifetimes in outdoor applications. Plastics used routinely outdoors are generally light-stabilized using chemical additives to ensure their useful lifetimes. Wood products are coated for resistance to UV radiation, since photodamage results in enhanced water-susceptibility and their consequent biodegradation under outdoor exposure. The increased damage to materials due to an increased UV-B (280–315 nm) component in solar radiation reaching the Earth likely can be countered using light-stabilization technologies, surface coatings or, in most instances, by substituting the materials in question with greater UV radiation-resistant materials. However, even if these options could be used with all common materials affected, they will invariably result in higher costs. Reliable estimates of the incremental costs involved depend on the anticipated damage and the effectiveness of mitigation strategies employed. We summarize and assess recent findings on light-induced damage to plastic materials, including wood-plastics composites and nanocomposites. The combined effect of increased UV-B radiation and ambient temperature is of special interest, since these two factors represent particularly harsh environmental conditions for most materials. Advances in approaches to light stabilization of materials are also assessed.

Graphical abstract: Effects of solar UV and climate change on materials

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Publication details

The article was received on 22 Nov 2010, accepted on 23 Nov 2010 and first published on 20 Jan 2011

Article type: Perspective
DOI: 10.1039/C0PP90038A
Citation: Photochem. Photobiol. Sci., 2011,10, 292-300
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    Effects of solar UV and climate change on materials

    A. L. Andrady, H. Hamid and A. Torikai, Photochem. Photobiol. Sci., 2011, 10, 292
    DOI: 10.1039/C0PP90038A

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