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3D imaging technology unlocks new insights in plastic waste recycling
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3D imaging technology unlocks new insights in plastic waste recycling
by Clarence Oxford
Los Angeles CA (SPX) Sep 06, 2024

Researchers at the University of Waterloo have made a groundbreaking discovery using 3D imaging technology to better understand microplastics, marking a global first in the push toward more effective plastic waste recycling.

Microplastics, tiny fragments resulting from the breakdown of larger plastic products, are at the heart of a growing environmental issue. These particles are notoriously difficult to decompose, leading to significant risks for ecosystems, wildlife, and human health. Nanoplastics, even smaller particles, exacerbate the issue, yet understanding how these plastics degrade has been a persistent challenge for scientists.

By partnering with the National Research Council (NRC), the Waterloo research team enhanced traditional two-dimensional microscopy techniques with advanced 3D imaging, revealing new levels of detail in the degradation of micro and nanoplastics.

"Most microscope images provide a two-dimensional view, similar to a medical X-ray, which gives us some information but lacks depth," said William Anderson, a professor in Waterloo's Department of Chemical Engineering. "However, 3D imaging is like a CT scan, offering far more detailed insights into the structure and degradation of microplastics. This level of detail has been incredibly challenging to achieve, but it's crucial for understanding what is happening at the surface of micro and nanoplastics and how degradation processes work."

The researchers employed an innovative combination of physical and biological processes to acquire their new data. They applied a photocatalytic method using ultraviolet (UV) light along with a titanium oxide catalyst to treat the micro and nanoplastics. This enabled the team to observe and track the degradation of these plastics at a microscopic level.

"Using this methodology reveals not just that degradation is happening, but exactly how and where it's occurring on the surface of micro and nanoplastics," said chemical engineering professor Boxin Zhao, a University of Waterloo Endowed Chair in Nanotechnology. "This knowledge is crucial for developing more effective methods of breaking down plastics on the micro and nanoscales."

The research team is also exploring biocycling methods, where microplastics serve as a carbon source for bacteria. These bacteria consume the microplastics and then excrete a biopolymer, which could be used to produce new materials like plastic bags or packaging films. This work has the potential to help recycle microplastics into new, eco-friendly products.

The project, supported by researchers from both the Department of Chemical Engineering and the Department of Biology at Waterloo, is part of a broader initiative to develop biocycling techniques for plastics. The team's interdisciplinary approach highlights the need for collaboration across fields to tackle such complex environmental issues.

Ultimately, this research could lead to more effective plastic recycling techniques and contribute to the development of a circular economy.

Research Report:3D imaging photocatalytically degraded micro-and nanoplastics

Related Links
University of Waterloo
Space Technology News - Applications and Research

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