Add to ORKGOver the past ten years, interfacial materials system, superwettability with water and oil, have been widely studied and utilized in practical applications such as self-cleaning, oil/water separation, water collection, anti-fogging, and anti-icing. Although the materials with superwettability show excellent performance of applications compared with the traditional methodology, they still suffer from various disadvantages including poor durability, high cost and complex preparation method. So, design and simple fabrication of advanced superwettability materials with low cost, good chemical and mechanical stability are of significance in environmental safety, water resource shortage, and other domains. Furthermore, new interfacial materials s...
Various life forms in nature display a high level of adaptability to their environments through the ...
The frequent marine oil spill accidents in nowadays has aroused great attention all over the world. ...
| openaire: EC/H2020/725513/EU//SuperRepelA fundamental challenge in artificially structured/ chemic...
Wettability at the solid/liquid interface, its dynamics, tunability, the influence of operating para...
Materials with special wettability have attracted tremendous research attention in recent decades in...
Selective filtration based on superwetting materials has brought about widespread attention in the f...
Materials of extreme wetting properties have received significant attention, as they offer new persp...
There is a critical need to develop durable and reusable materials for oil-water separation, especia...
Global growing challenges of water pollution due to oil spills bring a desperate need of efficient s...
International audienceSmart Materials for Environmental Recovery.Oil–water contamination is a global...
Abstract The separation of oil/water mixtures, polymer/water mixtures, or bubble/water mixtures has ...
Glass and metals have many applications in different fields like automobiles, solar panels, and also...
Oil-water separation is critically important for the water treatment of oily wastewater or oil-spill...
The nanostructure-based surface texturing can be used to improve the materials wettability. Regardin...
Fluidic separation of two or more immiscible fluids is a key process in several applications. While ...
Various life forms in nature display a high level of adaptability to their environments through the ...
The frequent marine oil spill accidents in nowadays has aroused great attention all over the world. ...
| openaire: EC/H2020/725513/EU//SuperRepelA fundamental challenge in artificially structured/ chemic...
Wettability at the solid/liquid interface, its dynamics, tunability, the influence of operating para...
Materials with special wettability have attracted tremendous research attention in recent decades in...
Selective filtration based on superwetting materials has brought about widespread attention in the f...
Materials of extreme wetting properties have received significant attention, as they offer new persp...
There is a critical need to develop durable and reusable materials for oil-water separation, especia...
Global growing challenges of water pollution due to oil spills bring a desperate need of efficient s...
International audienceSmart Materials for Environmental Recovery.Oil–water contamination is a global...
Abstract The separation of oil/water mixtures, polymer/water mixtures, or bubble/water mixtures has ...
Glass and metals have many applications in different fields like automobiles, solar panels, and also...
Oil-water separation is critically important for the water treatment of oily wastewater or oil-spill...
The nanostructure-based surface texturing can be used to improve the materials wettability. Regardin...
Fluidic separation of two or more immiscible fluids is a key process in several applications. While ...
Various life forms in nature display a high level of adaptability to their environments through the ...
The frequent marine oil spill accidents in nowadays has aroused great attention all over the world. ...
| openaire: EC/H2020/725513/EU//SuperRepelA fundamental challenge in artificially structured/ chemic...