Recycling one of the toughest plastics with sunlight

According to RCO News Agency, Black polystyrene, which is widely used in food containers, coffee lids and packaging, has a very difficult recycling process. Its dark color, achieved with carbon black pigment, neutralizes optical scanners used in recycling plants, and the pigments complicate conventional recycling processes.

Now, scientists at Cornell and Princeton universities have developed a groundbreaking method that uses sunlight and black carbon itself to turn this challenging waste into reusable materials.

The challenge with black polystyrene

While bans on single-use plastics are on the rise, black polystyrene is still common. Its recycling challenges stem from two main issues, including sorting problems and energy-intensive destruction.

Optical scanners, which are essential for sorting plastic in recycling facilities, cannot detect black polystyrene because it absorbs light instead of reflecting it. This makes it almost impossible to automatically identify and sort this waste.

Additionally, breaking the molecular bonds of polystyrene traditionally requires heating it to more than 572°F (300°C) in oxygen-free chambers. This process is costly and inefficient, making these wastes unsuitable for large-scale recycling.

One promising alternative is photothermal conversion, or photothermal conversion, where light is used to heat plastics through an auxiliary compound that converts the light into localized heat. However, the inclusion of these compounds raises concerns about creating additional waste or altering the properties of the plastic during initial use.

A new approach using carbon black

Instead of foreign compounds, the researchers used carbon black, which is present in black polystyrene, as a heat transfer agent. This approach eliminated the need for additional additives while utilizing a component that was previously considered a barrier.

In their experiments, the researchers ground black polystyrene made in the laboratory into a fine powder and placed it under high-intensity white LED lights. The carbon black absorbed the light and generated localized heat that broke down the polystyrene into smaller molecules called styrene.

These styrenes, along with the remaining carbon black, were then recycled into new polystyrene, achieving a closed-loop process.

When the material was tested with waste such as food containers and lids, the results were promising. Up to 53% of the material was converted back to styrene. With concentrated sunlight, the efficiency increased to 80%. Even wastes mixed with black, yellow, red and transparent polystyrene were recycled with 67% efficiency in sunlight.

A step towards sustainable plastic recycling

The reliance of this method on sunlight and pre-existing materials makes it affordable and sustainable. Concentrated sunlight provides the highest efficiency, making the process suitable for areas with abundant sunlight.

Even with contamination caused by substances such as canola oil or orange juice on the plastic, this method showed the least loss of efficiency and strength.

By addressing the sorting and energy-intensive challenges of recycling black polystyrene, this innovation is an important step toward reducing landfill waste. In addition, it can pave the way for the recycling of other hard-to-process colored plastics, bringing us closer to a circular economy for plastic use.

As environmental regulations on single-use plastics become more stringent, solutions like these can be critical to managing plastic waste.

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