Li alloy-based non-volatile actuators

Authors
Noh, Myoung-SubLee, HyunseokSong, Young GeunJung, InkiNing, RuiguangPaek, Sung WookSong, Hyun-CheolBaek, Seung-HyubKang, Chong-YunKim, Sangtae
Issue Date
2019-03
Publisher
ELSEVIER
Citation
NANO ENERGY, v.57, pp.653 - 659
Abstract
Conventional artificial muscles induce bending by aligning large-sized ions within the electrolyte upon bias application. Such design, alike many other actuator types, suffer from volatile actuation where the actuated position gets lost upon switch-off. Here, we develop a non-volatile artificial muscle with ion insertion electrode materials. Upon bias application, the inserted ions pose stress on the electrodes that sustain even after power shut-off. The demonstrated actuator consists of lithium germanide (LixGe) thin films deposited on both sides of a flexible polyimide (PI) substrate. The device exhibits 35.2 mm displacement when operated at 2 V and generates the blocking force of 0.67 mN. The observed stress and volume expansion reach 248 MPa and 8.2% for the 284 nm Li3Ge thin films, respectively. The actuated position is maintained against gravity with 12.1% decay in the actuated distance after 10 min. The novel actuator type proves the potential use of lithium insertion materials as actuation materials and shows that non-volatile actuation can be realized with ion-insertion electrodes.
Keywords
LITHIUM-ION BATTERY; MECHANICAL STRESSES; GERMANIUM; ELECTRODES; LITHIATION; DESIGN; LITHIUM-ION BATTERY; MECHANICAL STRESSES; GERMANIUM; ELECTRODES; LITHIATION; DESIGN; Artificial Muscles; Non-Volatile Actuation; Li Alloys; Electrochemistry
ISSN
2211-2855
URI
https://pubs.kist.re.kr/handle/201004/120315
DOI
10.1016/j.nanoen.2018.12.095
Appears in Collections:
KIST Article > 2019
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