紫外线 LED 老化光伏电池封装用聚合物

IF 6.6 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Nicolas Pinochet, Lucie Pirot-Berson, Romain Couderc, Sandrine Therias
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引用次数: 0

摘要

地面太阳能模块中的封装聚合物会因太阳紫外线辐射而降解。为了评估聚合物在紫外线照射下的耐久性,可以进行加速老化试验。利用新型发光二极管装置,我们可以研究温度、辐照和紫外线源光谱对两种聚乙烯基商用封装材料的光氧化机理和动力学的影响。聚合物基质的光氧化速率随着温度和辐照度的增加而增加,温度和辐照度分别为 62 至 82 °C,辐照度分别为 12 至 28 W.m-2。在最后一种情况下,光氧化率与光子数量不成正比。最后,我们观察到在波长为 305 纳米的 UVB 辐射下,降解产物的分布与在波长为 365 纳米的 UVA 辐射下不同。UVB 光子能使诺里什反应发生,而单靠 UVA 是不可能发生这种反应的。需要特别注意保持 UVA 和 UVB 光子之间的平衡,以确保耐久性测试具有代表性。只要对其发射光谱稍作调整,紫外线 LED 设备似乎就能很好地加速封装聚合物的老化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

UV LED ageing of polymers for PV cell encapsulation

UV LED ageing of polymers for PV cell encapsulation
Encapsulation polymers in terrestrial solar modules degrade due to ultraviolet radiation from the sun. To assess a polymer’s durability under UV light, accelerated aging tests can be conducted. A new LEDs device allows us to investigate the effects of temperature, irradiation, and UV source spectrum on the photooxidation mechanism and kinetics of two polyethylene-based commercial encapsulants, differentiated by the presence or absence of UV absorbers. The photooxidation rate of the polymer matrix increases as the temperature and irradiance increase between 62 and 82 °C, and 12 and 28 W.m−2, respectively. In the last case, the photooxidation rate is not proportional to the number of photons. Finally, we observed different distributions of degradation products under UVB radiation at 305 nm compared to those under UVA radiation at 365 nm. UVB photons enable Norrish reactions that are not possible with UVA alone. Special care is needed to maintain a balance between UVA and UVB photons to ensure representative durability tests. With a few adjustments to their emission spectrum, UV LED devices appear to be good candidates for accelerated aging of encapsulation polymers.
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来源期刊
npj Materials Degradation
npj Materials Degradation MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
7.80
自引率
7.80%
发文量
86
审稿时长
6 weeks
期刊介绍: npj Materials Degradation considers basic and applied research that explores all aspects of the degradation of metallic and non-metallic materials. The journal broadly defines ‘materials degradation’ as a reduction in the ability of a material to perform its task in-service as a result of environmental exposure. The journal covers a broad range of topics including but not limited to: -Degradation of metals, glasses, minerals, polymers, ceramics, cements and composites in natural and engineered environments, as a result of various stimuli -Computational and experimental studies of degradation mechanisms and kinetics -Characterization of degradation by traditional and emerging techniques -New approaches and technologies for enhancing resistance to degradation -Inspection and monitoring techniques for materials in-service, such as sensing technologies
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