Liquid‐Like Surfaces with Enhanced De‐Wettability and Durability: From Structural Designs to Potential Applications
Xiaopeng Cheng,
Ran Zhao,
Shutao Wang
et al.
Abstract:Liquid‐like surfaces (LLSs) with dynamic repellency toward various pollutants (e.g., bacteria, oil, and ice), have shown enormous potential in the fields of biology, environment, and energy. However, most of the reported LLSs cannot meet the demands for practical applications, particularly in terms of de‐wettability and durability. To solve these problems, considerable progress has been made in enhancing the de‐wettability and durability of LLSs in complex environments. Therefore, this review mainly focuses on… Show more
Bioinspired superwetting oil–water separation strategy is summarized from confined-space to open-space, from static to dynamic devices. Strategies are evaluated and compared and current challenges and feasible solutions are emphasized.
Bioinspired superwetting oil–water separation strategy is summarized from confined-space to open-space, from static to dynamic devices. Strategies are evaluated and compared and current challenges and feasible solutions are emphasized.
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