Interfacial Material System Exhibiting Superwettability

Engineering the wettability of solid materials is a traditional, yet key issue in surface science and attracts tremendous interest by researchers in diverse fields. Recently, different superwetting phenomena have been discovered in both nature and experimental results. Therefore, in this review, var...

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Vydané v:Advanced materials (Weinheim) Ročník 26; číslo 40; s. 6872 - 6897
Hlavní autori: Tian, Ye, Su, Bin, Jiang, Lei
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Germany Blackwell Publishing Ltd 29.10.2014
Predmet:
Animals
Clean energy
Construction
Environment protection
interfaces
Liquids
Models, Chemical
Natural gas
superaerophobicity
superhydrophobicity
superoleophobicity
superwettability
Wettability
superhydrophobicity
superwettability
interfaces
superoleophobicity
superaerophobicity
ISSN:0935-9648, 1521-4095, 1521-4095
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Shrnutí:Engineering the wettability of solid materials is a traditional, yet key issue in surface science and attracts tremendous interest by researchers in diverse fields. Recently, different superwetting phenomena have been discovered in both nature and experimental results. Therefore, in this review, various superwetting states, leading to a “superwettability” system, are summarized and predicted. Fundamental rules for understanding superwettability are discussed, mainly taking superhydrophobicity in air as an example. Then, some recent application progress of individual members of this “superwettability” system are introduced. Notably, several novel application fields, mainly gas, water, oil and/or other liquid environments, are presented in the following section. By combining different members of this “superwettability” system, new interfacial functions can be generated, allowing unexpected applications, such as in environmental protection, energy, green industry, and many other important domains. Finally, the future development of this interesting “superwettability” system is discussed. A number of superwetting states are summarized to build a “superwettability” system. The combination of two or more members of the superwettability system leads to unexpected yet fantastic applications, such as in environmental protection, energy, green industry, and many other important domains.
Bibliografia:ark:/67375/WNG-5SSGSVQR-7
Key Research Program of the Chinese Academy of Sciences - No. KJZD-EW-M01
ArticleID:ADMA201400883
National Natural Science Foundation - No. 21201169
National Research Fund for Fundamental Key Projects - No. 2013CB933000
istex:8C28A689A55481CA954998E500109CE26FD885D3
These authors contributed equally to this work
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ISSN:0935-9648
1521-4095
1521-4095
DOI:10.1002/adma.201400883