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Photothermal Bimorph Actuators with In‐Built Cooler for Light Mills, Frequency Switches, and Soft Robots
Author(s) -
Li Jingjing,
Zhang Rui,
Mou Linlin,
Jung de Andrade Monica,
Hu Xiaoyu,
Yu Kaiqing,
Sun Jinkun,
Jia Tianjiao,
Dou Yuanyuan,
Chen Hong,
Fang Shaoli,
Qian Dong,
Liu Zunfeng
Publication year - 2019
Publication title -
advanced functional materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.069
H-Index - 322
eISSN - 1616-3028
pISSN - 1616-301X
DOI - 10.1002/adfm.201808995
Subject(s) - bimorph , materials science , actuator , optoelectronics , absorption (acoustics) , bending , photothermal therapy , composite material , mechanical engineering , optics , piezoelectricity , nanotechnology , computer science , physics , artificial intelligence , engineering
Photothermal bimorph actuators are widely used for smart devices, which are generally operated in a room temperature environment, therefore a low temperature difference for actuation without deteriorating the performance is preferred. The strategy for the actuator is assembling a broadband‐light absorption layer for volume expansion and an additional water evaporation layer for cooling and volume shrinkage on a passive layer. The response time and temperature‐change‐normalized bending speed under NIR, white, and blue light illumination are at the same level of high performance, fast photothermal actuators based on polymer or polymer composites. The classical beam theory and finite element simulations are also conducted to understand the actuation mechanism of the actuator. A new type of light mill is designed based on a wing‐flapping mechanism and a light‐modulated frequency switch. A fast‐walking robot (with a speed of 26 mm s −1 ) and a fast‐and‐strong mechanical gripper with a large weight‐lifting ratio (≈2142), respectively, are also demonstrated.