One of the factors driving
the plastic pollution
crisis is that very little of it gets reused effectively—as of 2015, only 9
percent of all plastics ever made had been recycled, a 2017 Science
Advances study found.
This is because, as ScienceNews explained, when plastics break down, they
usually break down into molecules that can't be easily reshaped into plastics
or other useful items without going through many different chemical processes.
But researchers at Colorado
State University (CSU) have developed a potential solution to the plastic
recycling problem.
In an article published
in Science today, they unveiled a new polymer with many
of the same characteristics as plastic that can be more easily returned to its
original molecules to be recycled, without the need for toxic chemicals or
complicated lab processes, a CSU press release reported Thursday.
"The polymers can be
chemically recycled and reused, in principle, infinitely," Eugene Chen, a
CSU chemistry professor whose lab developed the material, said.
Polymers, of which plastics
are one type, are made from chains of repeating molecules. The new polymer
developed by Chen's lab shares important characteristics with plastic such as
strength, durability, lightness and heat resistance.
The recent polymer builds on
another developed by Chen's lab in 2015, which could only be made under
commercially impractical cold conditions. It was also softer than plastic, with
less heat resistance and molecular weight.
But Chen said the lessons
learned from that polymer were essential to developing the newer model, which
can be made without solvents and under room temperature conditions that could
be more easily replicated by industry. It can also be easily broken down using
a catalyst and returned to its original shape for reuse.
The polymer still needs more
work before it will be available commercially. Chen and his team have received
a grant from CSU ventures that they are using to develop an even cheaper, more
efficient process for developing similar polymers, as well as exploring how
they can be produced on a larger scale. But Chen thinks he and his team are
headed in the right direction.
"It would be our dream to
see this chemically recyclable polymer technology materialize in the
marketplace," Chen said in the press release.
If Chen makes that dream come
true, his work could aid governments and businesses as they work to reduce
plastic pollution. Just a day before his paper was published, more than 40 UK
businesses joined a UK Plastics Pact that aims, among other things, to
source 30 percent of the UK's packaging from recyclable sources by 2025.
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