从科幻故事的页面上,自我创造的自我修复技术听起来像是直接的,但现在在《期刊》中写作的一群研究人员亚博老虎机网登录纳米能量已经开发了一种创新和新颖的方法,可以生产具有出色内在可拉伸性和高自我修复效率的自我修复弹性体。
学习:基于可拉伸的自愈合交替电流电动器件的自动多色显示器。图片来源:elenabsl/shutterstock.com
由中国郑州大学的一支团队开发的自我修复多色展示的技术可能在高级电子产品中具有真正的潜在应用:“”在医疗保健监控,智能可穿戴设备和物联网中的自动通信等各种应用中,自动和自我修复的可拉伸显示可能有希望app亚博体育,”研究生兼合着者Yu Chang解释说。
The Internet of Things (IoT) has experienced rapid growth in recent years, and IoT devices are becoming more and more common in everyday and industrial applications. Multi-color displays that possess self-powering capabilities have extraordinary superiority in information communications for the internet of things (IoT).
构建自动设备
尽管通常可以连续地在IoT网络上为设备供电,但越来越多的当今最前沿的工业和商业应用需要使用电池电量或其他机制,有时会供应不间断的一致性强制性。
However, new technologies are emerging which make self-powered, high-performing IoT devices a real possibility. The novel approach developed by Chang and her fellow researchers was inspired by the self-healing abilities of biological organisms and materials that are able to restore themselves after sustaining damage.
亚博网站下载包括水凝胶,离子Gelands和弹性体在内的材料已显示出在柔性,自我修复的电子产品(例如电极,传感器和显示器)中的使用。通常,自我修复过程被外部刺激(例如pH,电磁场和光线)激活。
“Although brilliant advances have been achieved in this field, it remains a key challenge to develop intrinsic self-healing materials without any additional energy expenditure at room temperature杨说。
In today’s world, multi-color display technology has found broad acceptance in intelligent display, artificial electronic skins, and information communications using a range of materials such as perovskite materials, quantum dots (QDs), and rare-earth compounds, Yang states, “由摩擦电纳米生成器(Tengs)驱动的自动显示器最近引起了广泛的关注。”
Multi-color displays can be fabricated using a variety of techniques, among them screen-printing, lithography, and ink-jet printing: “经过introducing the reversible dynamic imine bonds, PDMS is empowered with superb stretchability (2500 %) and high self-healing efficiency (96 %) under room temperature,”杨解释说。
改变游戏的潜力
可以将自供电的设备(包括可拉伸的自我修复发射层)与自我修复电极一起制造并插入多色显示器。随着系统内置的摩擦电纳米生成器(TENGS),可以实现自动的多色显示屏,为物联网技术中的自我实力通信提供了最先进,有力的平台。
除了在商业和工业物联网网络中找到潜在的应用使用外,多色显示器还证明了在日常可穿戴技术和医疗保健监测中使用的潜力。
使这些发展令人兴奋的原因是,最先进的自我创造的自我修复技术可以为改变游戏的应用铺平道路,因为可穿戴的传感器和移动健康应用正在作为支持和增强临床治疗的创新解决方案而出现。并促进心灵感应诊断。
While self-powering abilities can maneuver around some of the prohibitive costs associated with providing a consistent power supply, the self-healing ability is also another ace up the sleeve as it could reduce electronic waste due to components and user-critical parts being able to regenerate rather than require costly repair or replacement.
此外,由于自我修复的多色显示器非常可伸展,因此非常适合这些系统和设备,这些系统和设备会承受特别严重的日常压力,并且具有生存苛刻的现实应用程序的能力。“通过引入可逆的动态亚胺键来获得具有出色可拉伸性的可拉伸自我修复PDM杨说。
下一步包括找出这种制造方法和技术的可扩展性和现实实现。自我修复和自我驱动设备的发展是帮助研究人员,科学家和工程师满足对物联网,医疗保健监控,可穿戴电子设备甚至机器人的电子皮肤的不断增长的应用程序中接口电子设备的加速需求,假肢和其他新颖目的。
参考和进一步阅读
Yu Chang, Junlu Sun, Lin Dong, Fuhang Jiao, Shulong Chang, Yong Wang, Juan Liao, Yuanyuan Shang, Weiwei Wu, Yu Qi and Chong-Xin Shan, Self-Powered Multi-Color Display Based on Stretchable Self- Healing Alternating Current Electroluminescent Devices, Nano Energy, (2022) doi:https://www.sciencedirect.com/science/article/pii/S2211285522001458?via%3Dihub。
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