Ultraviolet-sensing surfaces based on hybrid nanocomposites for radiation monitoring systems

机译：基于杂交纳米复合材料进行辐射监测系统的紫外线感应表面

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Solar ultraviolet (UV) radiation, especially the most energetic UV-C band, is one of the major variables that negatively affects materials performance in space environment. Our work is focused on the design and fabrication of novel nanocomposite films that combine highly conductive graphene nanoplatelets and biological UV-sensitive molecules, which can be used to measure the effects of ultraviolet radiation exposure in real time. UV sensor films were deposited on samples made of space-grade reinforced composites, which are generally used in spacecraft components and structures, and the variation of their electrical properties upon UV-C irradiation was investigated.

机译：太阳紫外线（UV）辐射，尤其是最精力充沛的UV-C频段，是负面影响空间环境中的材料性能的主要变量之一。我们的作品专注于新的纳米复合膜的设计和制作，该纳米膜结合的高导电石墨烯纳米键和生物紫外线敏感分子，可用于测量紫外线辐射暴露实时的影响。 uV传感器膜沉积在由空间级增强复合材料制成的样品上，其通常用于航天器组分和结构，并且研究了它们在UV-C照射时的电性能的变化。

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《IEEE International Workshop on Metrology for Aerospace》|2017年|596p|共5页
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Elisa Toto; M. Gabriella Santonicola; Maria Cecilia Mancini; Susanna Laurenzi;
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中图分类 V419-53;
关键词
Nanocomposites; Coatings; Impedance; Radiation effects; Surface impedance; DNA; Surface resistance;

机译：纳米复合材料;涂层;阻抗;辐射效应;表面阻抗;DNA;表面抗力;

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Ultraviolet-sensing surfaces based on hybrid nanocomposites for radiation monitoring systems

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