We may understand melanin best as the pigment that dictates our skin tone, but these pigments are actually super plentiful – existing in almost every organism on earth. While melanin is all around us, there is still much to learn about its chemical structure.
A group of researchers from Carnegie Mellon University set out to better understand melanin, and in doing so, found that its chemical structure may be conducive to creating certain kinds of batteries.
“Functionally, different types of melanin molecules have quite different chemistries, so putting them together is a little like solving a jigsaw puzzle, with each molecule a puzzle piece,” says Venkat Viswanathan, ECS member and co-author of the study. “You could take any number of these pieces and mix and match them, even stack them on top of each other. So what we researched was, which of these arrangements is really correct?”
This from Carnegie Mellon University:
There are several types of melanin molecule, and each has a different function depending on its chemical structure. When these molecules bind to form a macromolecular structure, or a polymer, these polymers can be arranged to create a potential battery material. Based on the readings the researchers gained from their experiment, they discovered that a tetramer structure, a four-membered ring composed of larger molecules, appears to be consistent with the structural model of melanin macromolecules.
“The voltage we got out was very, very high—comparable to what you would get for the best sodium-based cathode materials we would use in a battery,” Viswanathan says. “So this was surprising to us: that we could take this material from biology, and it could function potentially as a very good cathode material.”