How Pearls Achieve Nanoscale Precision
upstart writes:
How pearls achieve nanoscale precision:
In research that could inform future high-performance nanomaterials, a University of Michigan-led team has uncovered for the first time how mollusks build ultradurable structures with a level of symmetry that outstrips everything else in the natural world, with the exception of individual atoms.
[...] Published in the Proceedings of the National Academy of Sciences, the study found that a pearl's symmetry becomes more and more precise as it builds, answering centuries-old questions about how the disorder at its center becomes a sort of perfection.
Layers of nacre, the iridescent and extremely durable organic-inorganic composite that also makes up the shells of oysters and other mollusks, build on a shard of aragonite that surrounds an organic center. The layers, which make up more than 90% of a pearl's volume, become progressively thinner and more closely matched as they build outward from the center.
Perhaps the most surprising finding is that mollusks maintain the symmetry of their pearls by adjusting the thickness of each layer of nacre. If one layer is thicker, the next tends to be thinner, and vice versa. The pearl pictured in the study contains 2,615 finely matched layers of nacre, deposited over 548 days.
Journal Reference:
Jiseok Gim, Alden Koch, Laura M. Otter, et al. The mesoscale order of nacreous pearls [open], Proceedings of the National Academy of Sciences (DOI: 10.1073/pnas.2107477118)
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