Advanced Materials Interfaces (Nov 2024)

Biphilic Functional Surfaces for Frost Prevention and Efficient Active Defrosting

  • Shaghayegh Saeidiharzand,
  • Abdolali Khalili Sadaghiani,
  • Daniel Orejon,
  • Khellil Sefiane,
  • Ali Koşar

DOI
https://doi.org/10.1002/admi.202400412
Journal volume & issue
Vol. 11, no. 32
pp. n/a – n/a

Abstract

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Abstract The present work addresses the systematic accurate fabrication and design of biphilic surfaces having superhydrophobic circular islands surrounded by a hydrophilic background by investigating their condensation frosting and defrosting behavior. A significant delay in frost formation is observed on samples with higher superhydrophobicity ratio A*, defined as superhydrophobic area to total area ratio. As the superhydrophobic island diameter D increases from D = 500 µm to D = 700 µm (A* from 19.62% to 38.46%), a 50% improvement/delay is observed in terms of frost formation or densification. Besides delaying icing/frosting, the presence of superhydrophobic areas empowers the formation of porous and nonuniform frost structure, which facilitates ice removal during the defrosting process. To this end, as the surface is recovered the ambient temperature, almost complete passive cleaning performance within only 23 s is observed on the biphilic design having superhydrophobic islands with the diameter of D = 500 µm, that is, a superhydrophobicity ratio A* of 19.62%. This work concludes on the optimum biphilic ratio, which is not only effective as a passive method by hindering frosting but also leads to a slush/water free surface after defrosting eased by the Laplace pressure gradient which is imposed by the different biphilic wettability patterns.

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