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Bridging the gap: harnessing liquid nanomachine know-how for tackling harmful airborne particulates.

Aleksei Yu KuzinGuoxiang ChenFenyang ZhuDmitry A GorinBrij MohanUdit ChoudhuryJizhai CuiKrunal M ModiGaoshan HuangYongFeng MeiAlexander A Solovev
Published in: Nanoscale (2023)
The emergence of "nanomotors", "nanomachines", and "nanorobotics" has transformed dynamic nanoparticle research, driving a transition from passive to active and intelligent nanoscale systems. This review examines two critical fields: the investigation of airborne particles, significant contributors to air pollution, and the rapidly emerging domain of catalytic and field-controlled nano- and micromotors. We examine the basic concepts of nano- and micromachines in motion and envision their possible use in a gaseous medium to trap and neutralize hazardous particulates. While past studies described the application of nanotechnology and nanomotors in various scenarios, airborne nano/micromachine motion and their control have yet to be thoroughly explored. This review intends to promote multidisciplinary research on nanomachines' propulsion and task-oriented applications, highlighting their relevance in obtaining a cleaner atmospheric environment, a critical component to consider for human health.
Keyphrases
  • particulate matter
  • air pollution
  • human health
  • climate change
  • risk assessment
  • lung function
  • high speed
  • quality improvement
  • big data
  • machine learning
  • mass spectrometry
  • case control