2019
DOI: 10.1002/smll.201804959
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Bubble‐Enabled Underwater Motion of a Light‐Driven Motor

Abstract: This work reports the photothermally driven horizontal motion of a motor as well as the suspending and vertical movements underwater. A motor is designed by attaching two polydimethylsiloxane‐coated oxidized copper foams (POCF) to the two opposite sides of an oxidized copper foam (OCF). When the hydrophobic POCF is immersed in water, it serves as both an air bubble trapper and a light‐to‐heat conversion center. As bubbles grow under photothermal heating, they provide lifting force and result in the revolving m… Show more

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Cited by 17 publications
(20 citation statements)
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“…The bubbles can provide sufficient vertical propulsion force for the actuators, providing solutions for the multi‐directional aquatic motions. [ 36,115,117 ] Luan et al. developed a magnet‐coupled porous carbon black‐doped hydrophobic PDMS foam (C‐foam) which can implement underwater movement with the assist of bubbles.…”
Section: Aquatic Locomotion Of the Carbon‐based Robotmentioning
confidence: 99%
See 3 more Smart Citations
“…The bubbles can provide sufficient vertical propulsion force for the actuators, providing solutions for the multi‐directional aquatic motions. [ 36,115,117 ] Luan et al. developed a magnet‐coupled porous carbon black‐doped hydrophobic PDMS foam (C‐foam) which can implement underwater movement with the assist of bubbles.…”
Section: Aquatic Locomotion Of the Carbon‐based Robotmentioning
confidence: 99%
“…By adjusting the light power density by a certain amount, such C‐foam could suspend in the water when the buoyancy equaled to the gravity. [ 36 ]…”
Section: Aquatic Locomotion Of the Carbon‐based Robotmentioning
confidence: 99%
See 2 more Smart Citations
“…Using similarly generated oxygen bubbles, Song et al [20] devised a pH-responsive cube that can rise up or sink down in an aqueous environment depending upon the acidity of the medium. Not long ago, Luan et al [21] created a photothermally driven hydrophobic motor where they manoeuvred its buoyancy by expanding and shrinking adhered gas bubbles through intermittent light illumination. In another curious work, Zhang et al [16] fabricated a hydrophobic rocket to achieve its cyclic rising and sinking inside a bacterial fermentation system with an intention to generate electricity through Faraday's Law.…”
Section: Introductionmentioning
confidence: 99%