A McGill-led research team has developed the first real-time, on-site technology capable of detecting and deciphering nanoplastics from all other particles in water, a capacity akin to being able to find a needle in a haystack within milliseconds.
A McGill-led research team has developed the first real-time, on-site technology capable of detecting and deciphering nanoplastics from all other particles in water, a capacity akin to being able to find a needle in a haystack within milliseconds.
Microplastic pieces are between 1 micrometre and 5 millimetres, roughly equivalent to a grain of rice. Nanoplastics are far tinier - a single nanometre is just 0.000001 millimetres. For comparison, a human hair is approximately 80,000–100,000 nanometers wide.
"This technology has the potential to revolutionize how we monitor and manage plastic pollution, ultimately contributing to the preservation of our environment," said Parisa Ariya, James McGill Professor in the Departments of Chemistry and Atmospheric and Oceanic Sciences at McGill, the study’s lead author.
Read more at: McGill University
