Researchers are developing a new plastic inspired by sea cucumber skin that could turn from flaccid to hard in moments. Gosh, that sounds dirty.
Sea cucumbers have skin that can switch between soft and rigid in seconds thanks to enzymes that bind the proteins fiber, and others that cause those binds to release. This new material is triggered by water but doesn't soak up the liquid like sponges or cardboard.
"We have the elastic polymer, so that's the mimic for the sea cucumber skin, and then we put in the cellulose whiskers," says one scientist. "You can get these from paper pulp, but we got ours from another little sea creature called a tunicate."
When dry, the cellulose fibres keep the material rigid by forming a scaffold held together by hydrogen bonds. But water molecules are better at forming such bonds, so when wet, the fibres lose their grip on one another and bond to the water molecules instead. The rigid material could easily be inserted into brain tissue, before softening into its floppy state. That would reduce the problems with inflammation solid electrodes can cause. And who doesn't hate that problem!
Current plans include a version of the material that switch stiffness in response to a pulse of electricity. Plastic superarmor? You betcha!
Sea cucumbers have skin that can switch between soft and rigid in seconds thanks to enzymes that bind the proteins fiber, and others that cause those binds to release. This new material is triggered by water but doesn't soak up the liquid like sponges or cardboard.
"We have the elastic polymer, so that's the mimic for the sea cucumber skin, and then we put in the cellulose whiskers," says one scientist. "You can get these from paper pulp, but we got ours from another little sea creature called a tunicate."
When dry, the cellulose fibres keep the material rigid by forming a scaffold held together by hydrogen bonds. But water molecules are better at forming such bonds, so when wet, the fibres lose their grip on one another and bond to the water molecules instead. The rigid material could easily be inserted into brain tissue, before softening into its floppy state. That would reduce the problems with inflammation solid electrodes can cause. And who doesn't hate that problem!
Current plans include a version of the material that switch stiffness in response to a pulse of electricity. Plastic superarmor? You betcha!
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