来自滑铁卢大学和江南大学的研究人员开发了一种自供电的智能织物,利用体热和太阳能来监测健康指标。 Researchers from Waterloo and Jiangnan Universities develop a self-powered smart fabric using body heat and solar energy for monitoring health metrics.
加拿大滑铁卢大学的研究人员与江南大学合作,开发了一种自供电的智能织物,可以将身体热量和太阳能转化为电能,无需外部电源。 Researchers from Waterloo University in Canada, in collaboration with Jiangnan University, have developed a self-powered smart fabric that converts body heat and solar energy into electricity, eliminating the need for external power sources. 多功能结构可整合传感器,以监测温度、压力和其他参数,并在智能面罩中潜在应用,跟踪呼吸温度和速度,同时检测与健康状况有关的化学品。 The multifunctional fabric can integrate sensors to monitor temperature, stress, and other parameters, and has potential applications in smart face masks tracking breath temperature and rate while detecting chemicals related to health conditions. 这一创新材料提供了一种稳定、持久和具有成本效益的替代目前可磨损装置的替代品,今后研究将侧重于提高其性能,将其与电子部件结合起来,并开发一个用于实时、非侵入性健康监测的智能电话应用程序。 This innovative material offers a stable, durable, and cost-effective alternative to current wearable devices, and future research will focus on enhancing its performance, integrating it with electronic components, and developing a smartphone app for real-time, non-invasive health monitoring.