Huiling Li
Chinese Academy of Sciences
10 Papers
119 Citations
Huiling Li is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Ice nucleus & Colloidal crystal. The author has an hindex of 9, co-authored 10 publications.
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Papers
Super-hydrophobic surfaces to condensed micro-droplets at temperatures below the freezing point retard ice/frost formation
TL;DR: In this article, super-hydrophobic surfaces with ZnO nanorod arrays were fabricated and the effects of these surfaces towards ice/frost formation were investigated, and the results showed that the time of condensed droplets maintaining the liquid state (t) increases with the decrease of the growth time (tZnO) which determines the surface wettability.
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Super-hydrophobic film retards frost formation
TL;DR: In this paper, the authors investigated the process of frost formation on isotactic polypropylene (i-PP) films and found that frost formation is greatly retarded on the super-hydrophobic i-PP surface, due to the micro-and nanometre structures, which leads to the delay of the solidification of liquid water at the TPL region.
178
Investigating the Effects of Solid Surfaces on Ice Nucleation
Kaiyong Li,Shun Xu,Wenxiong Shi,Min He,Huiling Li,Shuzhou Li,Xin Zhou,Jianjun Wang,Yanlin Song +8 more
TL;DR: The water microdroplets formed on flat, solid surfaces by an evaporation and condensation process exclude the uncontrollable impurities in water, and the effects of surface heterogeneities can be minimized through studying the freezing of ensembles of separate and independent water micro droplets.
162
Superoleophilic and Superhydrophobic Inverse Opals for Oil Sensors
TL;DR: In this article, an inverse opal with both superoleophilic (oil contact angle (CA), 5.1°± 1.2°) and superhydrophobic (water CA, 153.8° ± 1°) properties is fabricated using a phenolic resin (PR) as precursor and poly(styrene-methyl methacrylate-acrylic acid) (poly(St-MMA-AA)) colloidal crystals as templates.
121
Superhydrophobic surface at low surface temperature
TL;DR: In this paper, surfaces with different area fractions of the solid surface in contact with the liquid (f1) were designed and it was found that surfaces with f1 equal to or smaller than 0.068 maintain the superhydrophobicity when the surface temperature approaches the dew-point.
109