It鈥檚 rare to find an oyster with a pearl in it, but the iridescent material 鈥 called nacre 鈥 that coats the inside of oyster shells is actually made of the same material. professors Rebecca Metzler and Enrique Galvez are leading a team of 51风流 researchers to find out more about nacre鈥檚 structure, which is known for its strength and luster.
鈥淭here鈥檚 a lot of research into how that structure exists, but we wanted to probe it in a new way,鈥 Metzler said. 鈥淟ong term understanding of biological materials, such as nacre, provides engineers with the ability to come up with new and improved ideas for material designs,鈥 she explained.
In 2013, she and Galvez received a Picker Interdisciplinary Science Institute grant for this research, which uses imaging polarimetry, a new technique that involves measuring the polarization of the light, to examine the formation of biominerals. The project brings together Metzler鈥檚 biophysical knowledge and Galvez鈥檚 understanding of physical optics.
With the help of visiting physics professor Joshua Jones and Anthony D鈥橝ddario 鈥18, Metzler and Galvez used a combination of imaging polarimetry and scanning electron microscopy to look more closely at the structure of the nacre.
They discovered that the myostracal layer 鈥 the part of the shell where the organism attaches 鈥 is made up of a structure of block-like crystals, making it very different from the nacre that surrounds it, which is made up of lines of tablets. They found that the tablets of the nacre that occur after the myostracal layer were much thicker and more uniform than those that occurred before the myostracal layer.
鈥淲e found that the [myostracal] layer appears to cause structural changes,鈥 Metzler said. 鈥淲e鈥檙e really intrigued by that. We aren鈥檛 sure yet if it鈥檚 a direct correlation or if it just happened that way.鈥
She and Galvez plan to continue their research with imaging polarimetry to find out more about this, and they鈥檙e also interested in using it to look at other biomaterials, such as chiton, a biomaterial that forms the exoskeleton of many insects.
Their current findings were published in the Royal Society Open Science journal in February.