Bioinspired Interfacial Materials: From Binary Cooperative Complementary Interfaces to Superwettability Systems,Advanced Materials Interfaces

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Bioinspired Interfacial Materials: From Binary Cooperative Complementary Interfaces to Superwettability Systems
Advanced Materials Interfaces ( IF 4.3 ) Pub Date : 2018-01-02 , DOI: 10.1002/admi.201701176
Ruochen Fang ₁ , Mingjie Liu ₁ , Hongliang Liu ₂ , Lei Jiang _{1,

2}

Affiliation

In this review, the binary cooperative complementary principle, which applies to two complementary states, has been proposed as a powerful law for construction of novel functional interfacial materials. The idea is to tune the distance between these two complementary components to match the characteristic length of certain physical interactions so that the cooperation between these complementary building blocks becomes dominant and thus endows the interfacial materials with unique properties. Since 2000, the binary cooperative complementarity for design of bioinspired superwettability systems has been applied by regulating the structural roughness to ≈100 nm to match the characteristic length of the hydrophobic interaction. It has been proved that the binary cooperative complementary law gains great success in constructing bioinspired superwettability systems. It is believed that much more novel interfacial materials with unique multifunctions will be generated following the binary cooperative complementary principle.

中文翻译：

生物启发的界面材料：从二元合作互补接口到超润湿性系统

在这篇综述中，已经提出了适用于两个互补状态的二元合作互补原理，作为构造新型功能界面材料的有力法则。想法是调整这两个互补组件之间的距离，以匹配某些物理相互作用的特征长度，从而使这些互补构件之间的协作成为主导，从而赋予界面材料独特的性能。自2000年以来，通过将结构粗糙度调节至≈100nm以匹配疏水相互作用的特征长度，应用了生物启发性超润湿性系统设计的二元合作互补性。事实证明，二元合作互补法在构建生物启发的超湿性体系中获得了巨大的成功。据信，遵循二元协同互补原理，将产生更多具有独特多功能的新型界面材料。

更新日期：2018-01-02

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