Add to ORKGIn nearly all cases of underwater adhesion, water molecules typically act as a destroyer. Thus, removing interfacial water from the substrate surfaces is essential for forming super-strong underwater adhesion. However, current methods mainly rely on physical means to dislodge interfacial water, such as absorption, hydrophobic repulsion, or extrusion, which are inefficient in removing obstinate hydrated water at contact interface, resulting in poor adhesion. Herein, we present a unique means of reversing the role of water to assist in realizing a self-strengthening liquid underwater adhesive (SLU-adhesive) that can effectively remove water at contact interface. This is achieved through multiscale physical-chemical coupling methods across mil...
Superwetting surfaces require micro-/nanohierarchical structures but are mechanically weak. Moreover...
Strong, reversible underwater adhesion using gecko-inspired surfaces is achievable through the use o...
Stable and reversible adhesion to wet surfaces is challenging owing to water molecules at the contac...
Underwater adhesion is technically challenging mainly because of the presence of water which drastic...
Underwater adhesives have drawn much attention in the areas of industrial and biomedical fields. How...
Underwater adhesion represents a huge technological challenge as the presence of water compromises t...
Underwater adhesion represents a huge technological challenge as the presence of water compromises t...
International audienceMany marine organisms have developed adhesives that are able to bond under wat...
Instantaneous adhesion between different materials is a requirement for several applications ranging...
Abstract The development of hydrogel‐based underwater electronics has gained significant attention d...
Thermodynamics tells us to expect underwater contact between two hydrophobic surfaces to result in s...
A pressure-sensitive, nonreacting and nonfouling adhesive which can perform well both in air and und...
Polyelectrolyte complexation is critical to the formation and properties of many biological and poly...
A pressure-sensitive adhesive (PSA) requires only the application of light pressure to form a bond w...
Exploration aiming to understand how a single polymer chain interacts with interested solid–water in...
Superwetting surfaces require micro-/nanohierarchical structures but are mechanically weak. Moreover...
Strong, reversible underwater adhesion using gecko-inspired surfaces is achievable through the use o...
Stable and reversible adhesion to wet surfaces is challenging owing to water molecules at the contac...
Underwater adhesion is technically challenging mainly because of the presence of water which drastic...
Underwater adhesives have drawn much attention in the areas of industrial and biomedical fields. How...
Underwater adhesion represents a huge technological challenge as the presence of water compromises t...
Underwater adhesion represents a huge technological challenge as the presence of water compromises t...
International audienceMany marine organisms have developed adhesives that are able to bond under wat...
Instantaneous adhesion between different materials is a requirement for several applications ranging...
Abstract The development of hydrogel‐based underwater electronics has gained significant attention d...
Thermodynamics tells us to expect underwater contact between two hydrophobic surfaces to result in s...
A pressure-sensitive, nonreacting and nonfouling adhesive which can perform well both in air and und...
Polyelectrolyte complexation is critical to the formation and properties of many biological and poly...
A pressure-sensitive adhesive (PSA) requires only the application of light pressure to form a bond w...
Exploration aiming to understand how a single polymer chain interacts with interested solid–water in...
Superwetting surfaces require micro-/nanohierarchical structures but are mechanically weak. Moreover...
Strong, reversible underwater adhesion using gecko-inspired surfaces is achievable through the use o...
Stable and reversible adhesion to wet surfaces is challenging owing to water molecules at the contac...