TY - JOUR
T1 - A Skin-Inspired Design Integrating Mechano–Chemical–Thermal Robustness into Superhydrophobic Coatings
AU - Zhang, Hailong
AU - Bu, Xinyu
AU - Li, Wanbo
AU - Cui, Miaomiao
AU - Ji, Xingxiang
AU - Tao, Furong
AU - Gai, Ligang
AU - Jiang, Haihui
AU - Liu, Libin
AU - Wang, Zuankai
PY - 2022/8/4
Y1 - 2022/8/4
N2 - Designing scalable coatings with a wide spectrum of functions such as liquid repellency, anticorrosion, and antiflaming and a high level of mechano–chemical–thermal robustness is crucial in real-life applications. However, these individual functionalities and robustness are coupled together or even have conflicting requirements on the interfacial or bulky properties of materials, and thus, simultaneously integrating all these individual features into one coating has proved challenging. Herein, an integral skin-inspired triple-layered coating (STC) that resolves conflicting demands imposed by individual features on the structural, chemical, mechanical, and thermal properties of materials is proposed. Specifically, the rational design of multiple gradients in roughness, wetting, strength, and flame retardancy and the formation of continuous interfaces along its triple layers endow a sustained liquid repellency, anticorrosion, and flame retardancy even under harsh environments, as well as strong antiabrasion on surfaces and adhesion with the substrate. Such an all-in-one design enhances the durability and lifetime of coatings and reduces the maintenance and repair, thereby contributing to cost and energy saving. Together with a facile spraying fabrication process, this STC provides a feasible and sustainable strategy for constructing energy and resource-saving materials.
AB - Designing scalable coatings with a wide spectrum of functions such as liquid repellency, anticorrosion, and antiflaming and a high level of mechano–chemical–thermal robustness is crucial in real-life applications. However, these individual functionalities and robustness are coupled together or even have conflicting requirements on the interfacial or bulky properties of materials, and thus, simultaneously integrating all these individual features into one coating has proved challenging. Herein, an integral skin-inspired triple-layered coating (STC) that resolves conflicting demands imposed by individual features on the structural, chemical, mechanical, and thermal properties of materials is proposed. Specifically, the rational design of multiple gradients in roughness, wetting, strength, and flame retardancy and the formation of continuous interfaces along its triple layers endow a sustained liquid repellency, anticorrosion, and flame retardancy even under harsh environments, as well as strong antiabrasion on surfaces and adhesion with the substrate. Such an all-in-one design enhances the durability and lifetime of coatings and reduces the maintenance and repair, thereby contributing to cost and energy saving. Together with a facile spraying fabrication process, this STC provides a feasible and sustainable strategy for constructing energy and resource-saving materials.
KW - coatings
KW - robustness
KW - skin-inspired triple-layers
KW - spraying
KW - superhydrophobicity
UR - http://www.scopus.com/inward/record.url?scp=85133207933&partnerID=8YFLogxK
UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-85133207933&origin=recordpage
U2 - 10.1002/adma.202203792
DO - 10.1002/adma.202203792
M3 - RGC 21 - Publication in refereed journal
SN - 0935-9648
VL - 34
JO - Advanced Materials
JF - Advanced Materials
IS - 31
M1 - 2203792
ER -
SDG 7 Affordable and Clean Energy