posted on 2013-11-13, 00:00authored byYong-Hee Lee, Joo-Seong Kim, Jonghyeon Noh, Inhwa Lee, Hyeong
Jun Kim, Sunghun Choi, Jeongmin Seo, Seokwoo Jeon, Taek-Soo Kim, Jung-Yong Lee, Jang Wook Choi
Wearable electronics represent a
significant paradigm shift in
consumer electronics since they eliminate the necessity for separate
carriage of devices. In particular, integration of flexible electronic
devices with clothes, glasses, watches, and skin will bring new opportunities
beyond what can be imagined by current inflexible counterparts. Although
considerable progresses have been seen for wearable electronics, lithium
rechargeable batteries, the power sources of the devices, do not keep
pace with such progresses due to tenuous mechanical stabilities, causing
them to remain as the limiting elements in the entire technology.
Herein, we revisit the key components of the battery (current collector,
binder, and separator) and replace them with the materials that support
robust mechanical endurance of the battery. The final full-cells in
the forms of clothes and watchstraps exhibited comparable electrochemical
performance to those of conventional metal foil-based cells even under
severe folding–unfolding motions simulating actual wearing
conditions. Furthermore, the wearable textile battery was integrated
with flexible and lightweight solar cells on the battery pouch to
enable convenient solar-charging capabilities.