ACS Appl Mater Interfaces. 2019 Feb 27;11(8):7974-7980. doi: 10.1021/acsami.8b20233. Epub 2019 Feb 15.
Microsized and shape-versatile flexible and wearable lithium-ion batteries (LIBs) are promising and smart energy storage devices for next-generation electronics. In the present work, we design and fabricate the first prototype of microsized fibrous LIBs (thickness ≈ 22 μm) based on multilayered coaxial structure of solid-state battery components over flexible and electrically conductive carbon fibers (CFs). The micro coaxial batteries over the CF surface were fabricated via electrophoretic deposition and dip-coating methods. The microfiber battery showed a stable potential window of 2.5 V with an areal discharge capacity of ∼4.2 μA h cm at 13 μA cm of the current density. The as-assembled battery fiber delivered a comparable energy density (∼0.006 W h cm) with solid-state lithium thin-film batteries at higher power densities (∼0.0312 W cm). The fibrous batteries were also connected in parallel and in series to deliver large current and high voltage, respectively. The fibrous battery also retains up to 85% discharge capacity even after 100 charge-discharge cycles. Furthermore, these battery fibers performed well under both static and bending conditions, which shows the robustness of the battery fiber. Therefore, this type of fibrous microbattery can be used in advanced flexible and wearable microelectronics, bioelectronics, robotics, and textile applications.
用于下一代电子产品的微尺寸、形状灵活且可穿戴的锂离子电池(LIB)是很有前途且智能的储能设备。在目前的工作中,我们设计并制造了第一个基于固态电池组件的多层同轴结构的微尺寸纤维状 LIB(厚度≈22μm)原型,该结构位于柔性导电碳纤维(CF)上。通过电泳沉积和浸涂方法在 CF 表面上制造微同轴电池。微纤维电池在电流密度为 13μA cm 时具有稳定的 2.5V 电位窗口,面放电容量约为 4.2μA h cm。所组装的电池纤维在更高的功率密度(0.0312W cm)下具有与固态锂薄膜电池相当的能量密度(0.006W h cm)。纤维状电池还可以并联和串联连接,以分别提供大电流和高电压。即使经过 100 次充放电循环,纤维状电池仍能保留高达 85%的放电容量。此外,这些电池纤维在静态和弯曲条件下都能很好地工作,这显示出电池纤维的坚固性。因此,这种纤维状微型电池可用于先进的柔性和可穿戴微电子、生物电子、机器人技术和纺织应用。
