In this paper, we demonstrate the feasibility of using carbon fibre reinforced polymer (CFRP) laminates for the dual functions on aircraft as high load-bearing structural materials as well as for the harvesting and storage of static electricity during flight which can be used to power navigation lights and other electrical systems. CFRP laminate was fabricated into a structural dielectric capacitor (SDC) composite by sandwiching graphene oxide (GO) film between two electrically-conductive carbon fabric layers. To meet the high requirements of aviation applications, the mechanical properties of the GO-based SDC composite were increased using a polymer cross-linking agent in the GO film. This work opens a new concept and possibility of converting the safety threatening static charges into useful electrical energy, which not only reduces the safety hazard, but also improves the energy efficiency of aircraft without compromising the mechanical performance.

在本文中，我们演示了将碳纤维增强聚合物（CFRP）层压板用作飞机上的双重功能，作为高承载结构材料以及在飞行过程中收集和存储可用于供电的静电的可行性。导航灯和其他电气系统。通过将氧化石墨烯（GO）膜夹在两个导电碳织物层之间，将CFRP层压板制成结构介电电容器（SDC）复合材料。为了满足航空应用的高要求，使用GO薄膜中的聚合物交联剂提高了GO基SDC复合材料的机械性能。这项工作开辟了一个新的概念，并提出了将安全隐患转变为有用电能的可能性，