Before you read this, look around your room. How much of your surroundings are made of plastic? The chair that you sit on, the desk, the casing on your computer and monitor, the pen you use, the carpet, the shoes you wear, your clothes, your bag, the soda bottle you sip from, the furniture, the walls and even the plumbing—how many items can you identify that are plastic?
Depending on where you reside, the majority of the things around you might be made of different types of plastic. Now, if you’re outside, various parts of your car, the buses and trains, even the interior of airplanes are mostly plastic. Currently there are not many methods to recycle plastics efficiently without compromising quality. So, it shouldn’t come as a surprise that not a day goes by without news of microplastics in our oceans and possibly in our food supply.
A beacon of hope was recently lit at Shinshu University where Professor Yasuhiro Kohsaka and his graduate student Akane Kazama discovered acid hydrolysis of a vinyl polymer broke down into salicylic acid and acetic acid. These acids form aspirin through some reactions. Vinyl is the second most common plastic in the world today. Previous recyclable vinyl had been too unstable to work with at room temperature, and was not suitable for practical use.
The team at Shinshu plan to study the reaction mechanism in-depth which they hope will provide insight into real world applications for recyclable vinyl polymers. If it can become cost effective to recycle vinyl on an industrial scale, we will be one step closer to solving the global plastic waste problem.
One more time: 2020 Olympic podiums to be made from recycled plastic
Akane Kazama et al, Radical polymerization of ‘dehydroaspirin’ with the formation of a hemiacetal ester skeleton: a hint for recyclable vinyl polymers, Polymer Chemistry (2019). DOI: 10.1039/C9PY00474B
Recycling plastic: Vinyl polymer broken down to aspirin components (2019, July 1)
retrieved 7 July 2019
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.