High-performance nanogenerator devices for energy harvesting applications

用于能量收集应用的高性能纳米发电机装置

• 批准号: 549228-2019
• 负责人: Ban, Dayan
• 金额: $ 6.72万
• 依托单位: University of Waterloo
• 依托单位国家: 加拿大
• 项目类别: Alliance Grants
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=700608
• 关键词: performance; nanogenerator; devices; energy; harvesting

The importance of air travel as a fast and efficient form of transport of passengers and cargo continuously increases in the current context of globalization and population growth. Without exception, the highest priority for air travel is the structural integrity of the aircraft itself. Aircraft structural health monitoring (SHM) is the assessment of an aircraft's structural condition using advanced sensor technologies, where data can be collected, transferred and analyzed to assess vehicle integrity. Wired sensors have been incorporated and deployed in aircrafts for the SHM purpose. Nevertheless, the deployment of wired sensors is largely constrained due to the extra weight of the running wires (for power supply and signal transmission) and the installation/maintenance difficulties. Shimco North America Inc. (Shimco), a Cambridge-based company with a leading position in the shim industry, identified this gap and niche market. In 2015 Shimco decided to collaborate with the University of Waterloo to develop novel self-powered sensor technologies that can be incorporated in their next-generation shim products. After completing one NSERC Engage project in 2016-2017, one Ontario Center of Excellence (OCE) VIP II project (2017-2019) and one NSERC CRD project (2018-2020, ongoing), the UW team and Shimco have successfully developed the first generation of self-powered sensors based on triboelectric devices. In a proof-of-the-concept demo system, an energy harvesting unit, an energy collection and storage unit and a wireless transmission unit have been integrated. Inspired by the excellent progress, Shimco decides to continue the collaboration with the UW team. In this follow-up project, high-performance piezoelectric nanogenerators will be developed by exploring new materials, advanced fabrication and optimized device structure and packaging. This project will get the energy harvesting technologies mature for the commercialization phase, enable Shimco to develop the next generation, high-value shim products and, provide excellent training opportunities for HQP in the fields of nanotechnologies, material sciences, nanoelectronics and shim manufacture.

在当前全球化和人口增长的背景下，航空旅行作为一种快速、高效的旅客和货物运输方式的重要性不断增加。无一例外，航空旅行的首要任务是飞机本身的结构完整性。飞机结构健康监测 (SHM) 是使用先进的传感器技术评估飞机的结构状况，可以收集、传输和分析数据以评估车辆的完整性。出于安全健康管理目的，有线传感器已集成并部署在飞机上。然而，由于运行电线（用于供电和信号传输）的额外重量以及安装/维护的困难，有线传感器的部署在很大程度上受到限制。 Shimco North America Inc. (Shimco) 是一家位于剑桥的公司，在垫片行业中处于领先地位，它发现了这一差距和利基市场。 2015 年，Shimco 决定与滑铁卢大学合作开发新型自供电传感器技术，该技术可纳入其下一代垫片产品中。在完成 2016-2017 年的一个 NSERC Engage 项目、一个安大略卓越中心 (OCE) VIP II 项目（2017-2019）和一个 NSERC CRD 项目（2018-2020，正在进行）后，UW 团队和 Sh​​imco 成功开发了第一个基于摩擦电装置的自供电传感器的产生。在概念验证演示系统中，集成了能量收集单元、能量收集和存储单元以及无线传输单元。受到出色进展的启发，Shimco 决定继续与华盛顿大学团队合作。后续项目将通过探索新材料、先进制造以及优化器件结构和封装来开发高性能压电纳米发电机。该项目将使能量收集技术成熟并进入商业化阶段，使 Shimco 能够开发下一代高价值垫片产品，并为 HQP 在纳米技术、材料科学、纳米电子学和垫片制造领域提供良好的培训机会。