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Orthogonal navigation of multiple visible-light-driven artificial microswimmers.

Jing ZhengBaohu DaiJizhuang WangZe XiongYa YangJun LiuXiaojun ZhanZhihan WanJinyao Tang
Published in: Nature communications (2017)
Nano/microswimmers represent the persistent endeavors of generations of scientists towards the ultimate tiny machinery for device manufacturing, targeted drug delivery, and noninvasive surgery. In many of these envisioned applications, multiple microswimmers need to be controlled independently and work cooperatively to perform a complex task. However, this multiple channel actuation remains a challenge as the controlling signal, usually a magnetic or electric field, is applied globally over all microswimmers, which makes it difficult to decouple the responses of multiple microswimmers. Here, we demonstrate that a photoelectrochemically driven nanotree microswimmer can be easily coded with a distinct spectral response by loading it with dyes. By using different dyes, an individual microswimmer can be controlled and navigated independently of other microswimmers in a group. This development demonstrates the excellent flexibility of the light navigation method and paves the way for the development of more functional nanobots for applications that require high-level controllability.
Keyphrases
  • drug delivery
  • visible light
  • minimally invasive
  • cancer therapy
  • magnetic resonance imaging
  • computed tomography
  • mass spectrometry
  • aqueous solution
  • acute coronary syndrome
  • atrial fibrillation
  • coronary artery bypass