WSU研究人员开发了灵活、耐用、3D打印的天线阵列,使用铜墨,在穿戴器、无人驾驶飞机和飞机上提供可靠的无线技术。 WSU researchers developed flexible, durable 3D-printed antenna arrays using copper ink for reliable wireless tech in wearables, drones, and aircraft.

华盛顿州立大学研究人员利用铜纳米颗粒墨创建了芯片尺寸3D打印的灵活天线阵列,使耐久、轻量的无线组件能够保持弯曲、温度变化、湿度和盐暴露下的性能。 Washington State University researchers have created chip-sized, 3D-printed flexible antenna arrays using copper nanoparticle ink, enabling durable, lightweight wireless components that maintain performance under bending, temperature shifts, humidity, and salt exposure. 每个模块式瓷砖包括一个独立的处理器,实时纠正信号错误,提高动态环境中的可靠性。 Each modular tile includes an independent processor that corrects signal errors in real time, improving reliability in dynamic environments. 该技术由空军研究实验室和其他组织供资,支持穿戴器、无人驾驶飞机、飞机和智能纺织品方面的应用,为下一代无线系统提供可扩展的低功率解决方案。 The technology, funded by the Air Force Research Laboratory and other organizations, supports applications in wearables, drones, aircraft, and smart textiles, offering scalable, low-power solutions for next-generation wireless systems.