Highly flexible perovskite oxide nanostructures-based hybrid nanogenerators for autonomous wearable devices and body metric applications

用于自主可穿戴设备和身体测量应用的高度灵活的基于钙钛矿氧化物纳米结构的混合纳米发电机

• 批准号: 494148-2016
• 负责人: Rosei, Federico
• 金额: $ 15.15万
• 依托单位: Institut national de la recherche scientifique
• 依托单位国家: 加拿大
• 项目类别: Strategic Projects - Group
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=663683
• 关键词: Highly; flexible; perovskite; oxide; nanostructures

Wearable electronic devices are an important driving force behind the recent development of the ''Internet of Things'', which connects the user with surrounding machines through Internet infrastructure for personalized healthcare. Materials and devices used in wearable electronics should combine functionality with robustness, low weight and reduced volume to optimize cost effectiveness. Our industrial partner HEXOSKIN develops unique and innovative wearable body sensors to record and organize personal health information and make it accessible to the user. To pursue this technology and maintain their market competitiveness, HEXOSKIN needs to significantly reduce costs, for example by reducing equipment weight and volume while increasing lifetime. In this project we propose to develop highly stretchable nanostructured oxide-based hybrid nanogenerators to power wearable technologies. This approach offers huge scientific, technological and economic potential, for example by permitting longer operation for real-time monitoring. Both the development and use of these smart materials and power sources in partnership with HEXOSKIN will strongly reinforce Canadian know-how in wearable device technology. This effort will lead to new ideas and IP, which can be exported worldwide, with expected economic impact for Canadian industry. High technology research is essential to develop a strong, diversified Canadian economy that is less dependent on natural resource extraction. In summary, this project will lead to: (i) DEVELOPING EXPERTISE and PROVIDING SEED TECHNOLOGY in nanomaterial-based devices, sensor fusion, quality analytics, and diagnostics, which are greatly relevant to various Canadian industries; (ii) TRAINING HIGHLY QUALIFIED PERSONNEL who will be in high demand from both academia and industry, and who can make educated decisions on future industrial needs; (iii) KEEPING ABREAST OF DEVELOPMENTS in this rapidly expanding field by being effectively networked nationally and internationally; (iv) PLACING Canada ON THE MAP in the field of advanced power devices for wearable applications, with the potential to become a key player.****

可穿戴电子设备是“物联网”最近发展的重要推动力，物联网通过互联网基础设施将用户与周围的机器连接起来，以实现个性化医疗保健。可穿戴电子产品中使用的材料和设备应将联合收割机的功能性与坚固性、低重量和减小的体积相结合，以优化成本效益。我们的工业合作伙伴HEXOSKIN开发了独特和创新的可穿戴身体传感器，用于记录和组织个人健康信息，并使用户可以访问这些信息。为了追求这项技术并保持市场竞争力，HEXOSKIN需要大幅降低成本，例如通过减少设备重量和体积，同时延长使用寿命。在这个项目中，我们建议开发高度可拉伸的纳米结构氧化物为基础的混合纳米发电机，为可穿戴技术提供动力。这种方法提供了巨大的科学、技术和经济潜力，例如允许更长的实时监测操作。与HEXOSKIN合作开发和使用这些智能材料和电源将有力地加强加拿大在可穿戴设备技术方面的专业知识。这一努力将带来新的想法和知识产权，这些想法和知识产权可以出口到世界各地，并对加拿大工业产生预期的经济影响。高科技研究对于发展一个强大的、多样化的、较少依赖自然资源开采的加拿大经济至关重要。总之，这一项目将导致：㈠在与加拿大各行业密切相关的纳米材料装置、传感器融合、质量分析和诊断方面培养专门知识并提供种子技术; ㈡培训学术界和工业界都高度需要的、能够就未来工业需求作出明智决定的高度熟练的人员; ㈢通过有效地在国内和国际上建立网络，在这一迅速扩大的领域中保持克制; ㈣使加拿大在用于可穿戴应用的先进电力设备领域占有一席之地，并有可能成为一个关键的参与者。