Sunlight hits tiny particles of plastic floating in a clear water solution. Slowly, they begin to disappear, leaving behind a familiar household chemical: acetic acid, the main ingredient in vinegar.

Scientists are exploring a method to convert plastic waste into fuels and valuable chemicals using sunlight, potentially ...

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 ...

Plastic waste is one of the most serious pollution problems on the planet. Plastics are hard to break down and can last for decades in nature, even under the harshest conditions. A new catalyst ...

Dr. Byungwook Hwang's research team from the CCS Research Department at the Korea Institute of Energy Research (KIER) has successfully developed a process that applies the circulating fluidized bed ...

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 ...

Pacific Northwest National Laboratory has found a new method to convert waste plastic into raw materials and fuel. The new process is conducted at low temperatures and with high yield, reducing the ...

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 ...

Declining plastic recycling rates coupled with increased plastic pollution on the Earth’s surface and within its oceans spell concern for the planet’s health. In an effort to combat these trends, ...