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Detection Methods
Nanoplastics
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Applying Raman imaging to capture and identify microplastics and nanoplastics in the garden
Journal of Hazardous Materials2021
29 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 40
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Yunlong Luo,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Cheng Fang,
Yunlong Luo,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Ravi Naidu
Christopher T. Gibson,
Cheng Fang,
Christopher T. Gibson,
Yunlong Luo,
Cheng Fang,
Yunlong Luo,
Christopher T. Gibson,
Christopher T. Gibson,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Christopher T. Gibson,
Christopher T. Gibson,
Christopher T. Gibson,
Yunlong Luo,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Christopher T. Gibson,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Clarence Chuah,
Clarence Chuah,
Christopher T. Gibson,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Yunlong Luo,
Clarence Chuah,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Christopher T. Gibson,
Ravi Naidu
Christopher T. Gibson,
Christopher T. Gibson,
Christopher T. Gibson,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Christopher T. Gibson,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Yunlong Luo,
Yunlong Luo,
Youhong Tang,
Youhong Tang,
Youhong Tang,
Youhong Tang,
Youhong Tang,
Youhong Tang,
Clarence Chuah,
Clarence Chuah,
Clarence Chuah,
Clarence Chuah,
Clarence Chuah,
Clarence Chuah,
Clarence Chuah,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Christopher T. Gibson,
Christopher T. Gibson,
Cheng Fang,
Youhong Tang,
Ravi Naidu
Cheng Fang,
Youhong Tang,
Cheng Fang,
Clarence Chuah,
Cheng Fang,
Youhong Tang,
Youhong Tang,
Youhong Tang,
Clarence Chuah,
Ravi Naidu
Ravi Naidu
Cheng Fang,
Christopher T. Gibson,
Cheng Fang,
Christopher T. Gibson,
Cheng Fang,
Cheng Fang,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Christopher T. Gibson,
Youhong Tang,
Youhong Tang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Youhong Tang,
Cheng Fang,
Cheng Fang,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Christopher T. Gibson,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Ravi Naidu
Cheng Fang,
Youhong Tang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Ravi Naidu
Ravi Naidu
Cheng Fang,
Cheng Fang,
Cheng Fang,
Cheng Fang,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Cheng Fang,
Cheng Fang,
Cheng Fang,
Yunlong Luo,
Yunlong Luo,
Cheng Fang,
Ravi Naidu
Cheng Fang,
Ravi Naidu
Ravi Naidu
Ravi Naidu
Summary
Researchers used Raman imaging to directly visualize and identify microplastics and nanoplastics released from trimmer lines during lawn mowing, demonstrating that garden equipment is a previously underappreciated source of plastic particle contamination in garden soil.
The characterisation of microplastics is still a challenge, and the challenge is even greater for nanoplastics, of which we only have a limited knowledge so far. Herewith we employ Raman imaging to directly visualise microplastics and nanoplastics which are released from the trimmer lines during lawn mowing. The signal-noise ratio of Raman imaging is significantly increased by generating an image from hundreds or thousands of Raman spectra, rather than from a single spectrum, and is further increased by combining with the logic-based and PCA-based algorithms. The increased signal-noise ratio enables us to capture and identify microplastics and particularly nanoplastics, including plastic fragments or shreds (with diameters / widths of 80 nm - 3 µm) and nanoparticles (with diameters of < 1000 nm) that are released during the mimicked mowing process. Using Raman imaging, we estimate that thousands of microplastics (0.1-5 mm), and billions of nanoplastics (< 1000 nm), are released per minute when a line trimmer is used to mow lawn. Overall, Raman imaging provides effective characterisation of the microplastics and is particularly suitable for nanoplastics.