Polarization‐Modulated Multidirectional Photothermal Actuators
Photothermal actuators have attracted increasing attention due to their ability to convert light energy into mechanical deformation and locomotion. This work reports a freestanding, multidirectional photothermal robot that can walk along a predesigned pathway by modulating laser polarization and on–...
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Veröffentlicht in: | Advanced materials (Weinheim) 2021-01, Vol.33 (3), p.e2006367-n/a |
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Sprache: | eng |
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Zusammenfassung: | Photothermal actuators have attracted increasing attention due to their ability to convert light energy into mechanical deformation and locomotion. This work reports a freestanding, multidirectional photothermal robot that can walk along a predesigned pathway by modulating laser polarization and on–off switching. Magnetic–plasmonic hybrid Fe3O4/Ag nanorods are synthesized using an unconventional templating approach. The coupled magnetic and plasmonic anisotropy allows control of the rod orientation, plasmonic excitation, and photothermal conversion by simply applying a magnetic field. Once the rods are fixed with desirable orientations in a bimorph actuator by magnetic‐field‐assisted lithography, the bending of the actuator can be controlled by switching the laser polarization. A bipedal robot is created by coupling the rod orientation with the alternating actuation of its two legs. Irradiating the robot by a laser with alternating or fixed polarization synergistically results in basic movement (backward and forward) and turning (including left‐, right‐, and U‐turn), respectively. A complex walk along predesigned pathways can be potentially programmed by combining the movement and turning modes of the robots. This strategy provides an alternative driving mechanism for preparing functional soft robots, thus breaking through the limitations in the existing systems in terms of light sources and actuation manners.
Magnetic–plasmonic hybrid Fe3O4/Ag nanorods are used as building blocks to create a freestanding, multidirectional photothermal robot. The hybrid nanorods are magnetically aligned with perfect orientational order in specific robot domains to enable on‐demand locomotion by modulating the polarization and on–off switching of a laser beam. |
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ISSN: | 0935-9648 1521-4095 |
DOI: | 10.1002/adma.202006367 |