资 源 简 介
物质利益可能从织物能产生能量并将其存储在超级电容器中的纤维
最近的研究将能量收集电子技术应用到织物中,“功率修整”具有全新的意义。太阳能技术的进步,例如,将很快产生的服装和室内装饰,可用于充电电池和电源设备。一种用聚合物压电纤维编织而成的材料,它可以舒适地佩戴,从简单的运动中获得能量。压电纳米发电机基于GaN纳米线会产生同样的权力。
存储产生的能量并将其转换为可用的形式是一个重要的考虑因素。石墨烯和碳纳米管的网络正在开发生产一种纤维状的能量存储装置,可以被纳入一个织物操作超级电容器。另外,研究高产紧凑拉伸丝型超级电容器基于连续碳纳米管纤维。另一种方法创造了一个灵活的薄膜提供最好的质量的锂电池(无锂)和高功率超级电容器。
This arTIcle will summarize this research to show how our clothing could exploit energy harvesTIng techniques to power electronic devices directly, charge up batteries, and even incorporate batteries in their very fibers.
For comparison purposes, the arTIcle will consider the current state-of-the-art in supercapacitors, in terms of physical size/bulk, performance and lifeTIme, for wearable applications, illustrated by examples from the Elna America and Seiko Instruments’ ranges. Charging and managing such supercapacitors will be covered, with reference to devices including the BQ25504 boost converter and battery management IC, and its associated development kit, both from Texas Instruments.
