Add to ORKGThe inability for man-made adhesives to set in wet or humid environments is an ongoing challenging the design of biomedical and marine adhesive materials. However, we see that nature has already overcome this challenge. Mussels, barnacles, oysters and sandcastle worms all have unique mechanisms by which they attach themselves to surfaces. By understanding what evolution has already spent millions of years perfecting, we can design novel adhesive materials inspired by nature’s elegant designs. The well-studied mussel is currently the standard for design of marine inspired biomimetic polymers. In the work presented here, we aim to provide new insights into the adhesive produced by the eastern oyster, Crassostrea virginica. Unlike the mussel, ...
Following their planktonic phase, the larvae of benthic marine organisms must locate a suitable habi...
Mussels attach to solid surfaces in the sea. Their adhesion must be rapid, strong, and tough, or els...
Mussel adhesive proteins are found in plaques of mussel species in our marine and freshwater environ...
Many marine creatures are known to generate biological adhesives for a variety of purposes. Isolatin...
Biological adhesives are a type of interfacial material that has incredible potential to generate ne...
Oysters live permanently immobilised by cementation of the left valve to a hard substrate. The conta...
Biological organisms demonstrate remarkable abilities to affix themselves to almost any surface. Man...
The European freshwater mollusk Dreissena bugensis (quagga mussel) adheres to a variety of underwate...
Oysters construct extensive reef communities, providing food, protection from storms, and healthy co...
Oysters show a two-phase life cycle: pelagic larvae adhere before metamorphosis into benthic life. L...
Bioadhesion of marine organisms has been intensively studied over the last decade because of their a...
Following their planktonic phase, the larvae of benthic marine organisms must locate a suitable habi...
Mussels attach to solid surfaces in the sea. Their adhesion must be rapid, strong, and tough, or els...
Mussel adhesive proteins are found in plaques of mussel species in our marine and freshwater environ...
Many marine creatures are known to generate biological adhesives for a variety of purposes. Isolatin...
Biological adhesives are a type of interfacial material that has incredible potential to generate ne...
Oysters live permanently immobilised by cementation of the left valve to a hard substrate. The conta...
Biological organisms demonstrate remarkable abilities to affix themselves to almost any surface. Man...
The European freshwater mollusk Dreissena bugensis (quagga mussel) adheres to a variety of underwate...
Oysters construct extensive reef communities, providing food, protection from storms, and healthy co...
Oysters show a two-phase life cycle: pelagic larvae adhere before metamorphosis into benthic life. L...
Bioadhesion of marine organisms has been intensively studied over the last decade because of their a...
Following their planktonic phase, the larvae of benthic marine organisms must locate a suitable habi...
Mussels attach to solid surfaces in the sea. Their adhesion must be rapid, strong, and tough, or els...
Mussel adhesive proteins are found in plaques of mussel species in our marine and freshwater environ...