Add to ORKGAdhesion represents a key joining technology and nature has been developing adhesives for millions of years. These biological adhesives can be found in all natural habitats, where they perform extraordinary bonding, partly under extreme conditions. For example, the blue marine mussel Mytilus edulis is able to adhere to a number of surfaces in sea water: e.g. glass, plastic, metal, wood, and even PTFE. The transfer of these bonding properties to technical and medical adhesives represents a major challenge, but also could lead to enormous benefits for industrial technology or medical treatment. Although the composition of protein based adhesives, as the ones of marine mussel are well known currently, the exact principles of the initial intera...
Adhesive proteins from marine mussels have long been studied for their potential biomedical applicat...
Mussels attach to solid surfaces in the sea. Their adhesion must be rapid, strong, and tough, or els...
Using a surface forces apparatus and an atomic force microscope, we characterized the adhesive prope...
Adhesion represents a key joining technology and nature has been developing adhesives for millions o...
Biological organisms demonstrate remarkable abilities to affix themselves to almost any surface. Man...
The 3,4-dihydroxyphenylalanine (Dopa)-containing proteins of marine mussels provide attractive desig...
Robust adhesion to wet, salt-encrusted, corroded and slimy surfaces has been an essential adaptation...
Marine organisms such as the common blue mussel ( Mytilus edulis) affix themselves to surfaces by pr...
Bonding of living tissue by using biocompatible adhesive systems is a requisite application in medic...
The substance secreted by mussels, also known as nature’s glue, is a type of liquid protein that ha...
The European freshwater mollusk Dreissena bugensis (quagga mussel) adheres to a variety of underwate...
Marine mussels secrete adhesive proteins that enable them to anchor to surfaces under water. We are ...
Production of novel protein-based materials has become a widespread and valuable field of research w...
Nature provides many outstanding examples of adhesive strategies from which chemists and material sc...
Water hampers the formation of strong and durable bonds between adhesive polymers and solid surfaces...
Adhesive proteins from marine mussels have long been studied for their potential biomedical applicat...
Mussels attach to solid surfaces in the sea. Their adhesion must be rapid, strong, and tough, or els...
Using a surface forces apparatus and an atomic force microscope, we characterized the adhesive prope...
Adhesion represents a key joining technology and nature has been developing adhesives for millions o...
Biological organisms demonstrate remarkable abilities to affix themselves to almost any surface. Man...
The 3,4-dihydroxyphenylalanine (Dopa)-containing proteins of marine mussels provide attractive desig...
Robust adhesion to wet, salt-encrusted, corroded and slimy surfaces has been an essential adaptation...
Marine organisms such as the common blue mussel ( Mytilus edulis) affix themselves to surfaces by pr...
Bonding of living tissue by using biocompatible adhesive systems is a requisite application in medic...
The substance secreted by mussels, also known as nature’s glue, is a type of liquid protein that ha...
The European freshwater mollusk Dreissena bugensis (quagga mussel) adheres to a variety of underwate...
Marine mussels secrete adhesive proteins that enable them to anchor to surfaces under water. We are ...
Production of novel protein-based materials has become a widespread and valuable field of research w...
Nature provides many outstanding examples of adhesive strategies from which chemists and material sc...
Water hampers the formation of strong and durable bonds between adhesive polymers and solid surfaces...
Adhesive proteins from marine mussels have long been studied for their potential biomedical applicat...
Mussels attach to solid surfaces in the sea. Their adhesion must be rapid, strong, and tough, or els...
Using a surface forces apparatus and an atomic force microscope, we characterized the adhesive prope...