Several million tonnes of polycarbonate are produced every year around the world. However, worries about the dangers of this material are increasing because of the toxicity of its precursors, especially bisphenol-A, a potential carcinogen.
Researchers led by Arjan Kleij from Institute of Chemical Research of Catalonia (ICIQ) in Spain, developed a method to produce polycarbonates from limonene and CO2, both abundant and natural products.
Besides, limonene is able to replace a dangerous building block currently used in commercial polycarbonates - bisphenol-A (also known as BPA).
Some countries like France, Denmark and Turkey have banned the use of BPA in the production of baby bottles.
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"BPA is safe, but still causes concerns and is produced from petroleum feedstock," Kleij said.
"Our approach replaces it with limonene, which can be isolated from lemons and oranges, giving us a much greener, more sustainable alternative," he said.
Because fully replacing BPA for limonene can be complicated for most industries at this moment, Kleij said that BPA can increasingly take over.
"Step by step, the adaptation process could lead to new limonene derived biomaterials with similar, or even enhanced and novel properties," Kleij said.
The researchers not only succeeded in producing a more environment-friendly polymer, but they also managed to improve its thermal properties.
This limonene-derived polymer has the highest glass transition temperature ever reported for a polycarbonate.
"We were quite surprised to find this, because known bio-plastics have worse thermal properties than classic polymers," said Kleij.
"We were first sceptic about these findings, but we were able to reproduce these features consistently," he said.
Moreover, this new polymer can also offer a myriad of new applications for polycarbonates and block copolymers using appropriate material formulations.