Scientists have genetically engineered bacteria to efficiently turn plastic waste into useful chemicals. The bacteria, described in a study published in the journal Nature Communications, could help ...

The plastic lifecycle currently emits more than 0.85 gigatons of greenhouse gases. If current plastic production and consumption patterns continue, emissions could reach 1.34 gigatons per year by 2050 ...

Plastics are…complicated. Can new recycling methods clean them up? This article is from The Spark, MIT Technology Review's weekly climate newsletter. To receive it in your inbox every Wednesday, sign ...

Turning plastic waste into useful products through chemical recycling is one strategy for addressing Earth's growing plastic pollution problem. A new study may improve the ability of one method, ...

Plastics are widely used but difficult to degrade, posing an ecological challenge. A team from SIAT developed degradable "living plastics" using synthetic biology and polymer engineering. They ...

In a previous article we reviewed rapid forming of thermoplastic composites (TPC). In the second part of this three-part series, we’ll explore the thermal processes and how these can be managed, ...

We know that most plastics thrown into the recycling bin don’t get recycled, but what about the ones that do? According to new research, those also end up spitting bits of plastic back into the ...

Soda bottles, sour cream containers and disposable cutlery—these plastics (and many others) typically arrive at recycling plants mixed together in the same bin. But because they are made of different ...

Each manufacturing sector has a distinctive set of tools, processes, technologies, and challenges. These differences make it extremely difficult, costly, and time consuming for manufacturers to adapt ...

Researchers have devised a method to dismantle the blend of traditional and bio-based plastics typically arriving at recycling centers. Bio-based plastics like polylactic acid (PLA) were created to ...