New solution for capturing microplastics before they enter waterways
A scanning electron microscope shows how the microplastic particles are attached to the nanocellulose structure. The diameter of the plastic particles is 100 nanometers. (Photo by: VTT) A thousand litres of seawater can contain up to 8.3 million particles of microplastics. Udentifying these very small particles has been difficult – usually they are only detected once they have accumulated in the bodies of fish. A method developed at Finnish research organisation VTT utilises nanocellulose structures for early particle identification. Nanocellulose would allow particles to be captured even before they enter waterways, says the group.
The properties of nanocellulose films and hydrogels support the identification and capture of very small microplastic particles.
“Nanocellulose has a mesh-like, porous structure and a large surface area. In the water, powerful capillary forces are generated in this structure, allowing particles to be transported inside the mesh and bound there”, says Research Professor Tekla Tammelin from VTT.
The method provides a way to catch microplastic particles of a size that the human eye cannot detect. These are particles with a diameter of only 100 nanometres.
“Nanocellulose structures can be used to identify and analyse these particles and to obtain information about their behaviour at an earlier stage. We can determine the concentration of particles in water and analyse, for example, whether particles are released into drinking water from plastic bottles.”
Next step: filtration methods
The identification of microplastic particles with nanocellulose structures has been developed at VTT as a part of the FinnCERES flagship project, which is exploring new bio-based material solutions. The next step could be to develop new and inexpensive filtration solutions utilising the method.
“New filtration solutions would allow particles to be captured where they are generated. The solutions could be utilised, for example, in laundry, where microplastic particles are released from fleece clothing and other synthetic fibres. Similarly, we could develop filtration methods for any industry where there is a risk of microplastics being generated and released into waterways.”