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In situ coherent X-ray diffraction imaging of radiation-induced mass loss in metal–polymer composite spheres

材料科学 聚合物 衍射 复合数 波动器 辐照 聚苯乙烯 辐射 光学 复合材料 物理 核物理学
作者
Eirik Torbjørn Bakken Skjønsfjell,Yuriy Chushkin,Federico Zontone,Dag W. Breiby
出处
期刊:Journal of Synchrotron Radiation [Wiley]
卷期号:25 (4): 1162-1171 被引量:2
标识
DOI:10.1107/s160057751800588x
摘要

A major limitation to the use of coherent X-ray diffraction imaging (CXDI) for imaging soft materials like polymers and biological tissue is that the radiation can cause extensive damage to the sample under investigation. In this study, CXDI has been used to monitor radiation-induced structural changes in metal-coated poly(methyl methacrylate) microspheres. Using a coherent undulator X-ray beam with 8.10 keV photon energy, 14 tomograms at a resolution of ∼30 nm were measured consecutively, which resulted in an accumulated dose of 30 GGy. The three-dimensional images confirmed that the polymer core was strongly affected by the absorbed dose, giving pronounced mass loss. Specifically, as the metal–polymer composite was exposed to the X-ray beam, a bubble-like region of reduced density grew within the composite, almost filling the entire volume within the thin metallic shell in the last tomogram. The bubble seemed to have its initiation point at a hole in the metal coating, emphasizing that the free polymer surface plays an important role in the degradation process. The irradiation of an uncoated polystyrene microsphere gave further evidence for mass loss at the free surface as the radius decreased with increased dose. The CXDI study was complemented by X-ray photon correlation spectroscopy, which proved efficient in establishing exposure dose limits. Our results demonstrate that radiation-induced structural changes at the tens of nanometer scale in soft materials can be followed as a function of dose, which is important for the further development of soft-matter technology.
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