Temperature-responsive anisotropic slippery surface for smart control of the droplet motion

By Lili Wang, Liping Heng, Lei Jiang

Research output: Contribution to journalArticleResearchpeer-review

93 Citations (Scopus)


Development of stimulus-responsive anisotropic slippery surfaces is important because of the high demand for such materials in the field of liquid directional-driven systems. However, current studies in the field of slippery surfaces are mainly conducted to prepare isotropic slippery surfaces. Although we have developed electric-responsive anisotropic slippery surfaces that enable smart control of the droplet motion, there remain challenges for designing temperature-responsive anisotropic slippery surfaces to control the liquid droplet motion on the surface and in the tube. In this work, temperature-responsive anisotropic slippery surfaces have been prepared by using paraffin, a thermo-responsive phase-transition material, as a lubricating fluid and directional porous polystyrene (PS) films as the substrate. The smart regulation of the droplet motion of several liquids on this surface was accomplished by tuning the substrate temperature. The uniqueness of this surface lies in the use of an anisotropic structure and temperature-responsive lubricating fluids to achieve temperature-driven smart control of the anisotropic motion of the droplets. Furthermore, this surface was used to design temperature-driven anisotropic microreactors and to manipulate liquid transfer in tubes. This work advances the understanding of the principles underlying anisotropic slippery surfaces and provides a promising material for applications in the biochip and microreactor system.

Original languageEnglish
Pages (from-to)7442-7450
Number of pages9
JournalACS Applied Materials & Interfaces
Issue number8
Publication statusPublished - 28 Feb 2018
Externally publishedYes


  • anisotropic porous film
  • droplet motion
  • lubricating fluid
  • self-cleaning material
  • temperature-driven

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