The design of smart surfaces with externally triggerable water/oil wettability and adhesion represents one of the most up-to-date challenges in the field of material science. In this work, the intelligent surface with electrically triggerable wettability and water/oil adhesion is presented. As a basic material background exhibiting electric field (EF) sensitivity, the piezo-responsive polymethylmethacrylate/polyvinylidenefluoride polymer fibers were used. To expand the available range of water/oil contact angles (CAs) and adhesion, the fibers were grafted with hydrophilic or hydrophobic functional groups using diazonium chemistry. The fiber functionality was evaluated using the static CA and wettability hysteresis measurements (increasing/d...
Adhesion between different objects is happening everywhere. Without it, simple procedures like walki...
Stimulus-responsive materials have great potential in advanced controllable oil/water separation app...
Stimulus-responsive materials have great potential in advanced controllable oil/water separation app...
The design of smart surfaces with externally triggerable water/oil wettability and adhesion represen...
Modification of surface wettability (ranging from complete wetting to complete non-wetting) of vario...
Controlling (bio-) adhesion and friction is essential in many bio-medical and industrial application...
Controlling (bio-) adhesion and friction is essential in many bio-medical and industrial application...
A smart, magnetically responsive superhydrophobic surface was facilely prepared by combining spray c...
The anchoring of polymer chains at solid surfaces is an efficient way to modify interfacial properti...
Diverse unique surfaces exist in nature, e.g. lotus leaf, rose petal and rice leaf. They show simila...
A smart, magnetically responsive superhydrophobic surface was facilely prepared by combining spray c...
A smart, magnetically responsive superhydrophobic surface was facilely prepared by combining spray c...
The anchoring of polymer chains at solid surfaces is an efficient way to modify interfacial properti...
Adhesion between different objects is happening everywhere. Without it, simple procedures like walki...
Patternable, electrically conductive coatings having a superhydrophobic and superoleophobic surface ...
Adhesion between different objects is happening everywhere. Without it, simple procedures like walki...
Stimulus-responsive materials have great potential in advanced controllable oil/water separation app...
Stimulus-responsive materials have great potential in advanced controllable oil/water separation app...
The design of smart surfaces with externally triggerable water/oil wettability and adhesion represen...
Modification of surface wettability (ranging from complete wetting to complete non-wetting) of vario...
Controlling (bio-) adhesion and friction is essential in many bio-medical and industrial application...
Controlling (bio-) adhesion and friction is essential in many bio-medical and industrial application...
A smart, magnetically responsive superhydrophobic surface was facilely prepared by combining spray c...
The anchoring of polymer chains at solid surfaces is an efficient way to modify interfacial properti...
Diverse unique surfaces exist in nature, e.g. lotus leaf, rose petal and rice leaf. They show simila...
A smart, magnetically responsive superhydrophobic surface was facilely prepared by combining spray c...
A smart, magnetically responsive superhydrophobic surface was facilely prepared by combining spray c...
The anchoring of polymer chains at solid surfaces is an efficient way to modify interfacial properti...
Adhesion between different objects is happening everywhere. Without it, simple procedures like walki...
Patternable, electrically conductive coatings having a superhydrophobic and superoleophobic surface ...
Adhesion between different objects is happening everywhere. Without it, simple procedures like walki...
Stimulus-responsive materials have great potential in advanced controllable oil/water separation app...
Stimulus-responsive materials have great potential in advanced controllable oil/water separation app...