材料科学
聚氨酯
纳米复合材料
纳米材料
辐照
弹性体
复合材料
聚合
复合数
聚合物
化学工程
纳米技术
物理
工程类
核物理学
作者
Lauren M. Irie,Broderick Lewis,Ashley K. Nensel,Elisabeth I. Latawiec,Anni J. Kuningas,Michael R. Wasielewski,Zheng Wang,Kenneth R. Shull,Nathan C. Gianneschi,Lauren M. Irie,Broderick Lewis,Ashley K. Nensel,Elisabeth I. Latawiec,Anni J. Kuningas,Michael R. Wasielewski,Zheng Wang,Kenneth R. Shull,Nathan C. Gianneschi
标识
DOI:10.1021/acsami.5c05674
摘要
Approaches for protecting polymeric materials against ionizing radiation are of importance for applications including in space, in aseptic medical devices, and in the nuclear industry. Allomelanin is a specific subclass of nitrogen-free melanin found to play a key role in the protection of fungal species in extreme environments. Herein, we prepared allomelanin-inspired nanomaterials by oxidatively polymerizing dihydroxynapthalene (DHN) isomers 1,7-DHN and 2,3-DHN. We demonstrate that these materials can be easily dispersed into a polyurethane (PU) elastomer, yielding products with tunable mechanical properties and optical transparency. We show that at loadings as low as 0.25 wt %, this approach provides UVB protection to the PU matrix maintaining mechanical properties despite exposure, preservation of composite surface chemistry, and suppression of crack formation. Furthermore, we show that these composites maintain their mechanical properties after exposure to gamma irradiation, demonstrating the multiradiation protective effect of these allomelanin-inspired nanomaterials.
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