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Laser-based techniques: Novel tools for the identification and characterization of aged microplastics with developed biofilm
Chemosphere2022
52 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 45
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Ula Rozman,
Ula Rozman,
Ula Rozman,
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Ula Rozman,
Gabriela Kalčíková
Ula Rozman,
Ula Rozman,
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Ula Rozman,
Ula Rozman,
Ula Rozman,
Gabriela Kalčíková
Ula Rozman,
Brunnbauer, Lukas,
Gabriela Kalčíková
Ula Rozman,
Pořízka, Pavel,
Ula Rozman,
Ula Rozman,
Pořízka, Pavel,
Brunnbauer, Lukas,
Brunnbauer, Lukas,
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Ula Rozman,
Ula Rozman,
Pořízka, Pavel,
Pořízka, Pavel,
Brunnbauer, Lukas,
Gabriela Kalčíková
Brunnbauer, Lukas,
Brunnbauer, Lukas,
Gabriela Kalčíková
Brunnbauer, Lukas,
Holub, Daniel,
Holub, Daniel,
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Martin Kizovský,
Martin Kizovský,
Martin Kizovský,
Martin Kizovský,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Martin Kizovský,
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Holub, Daniel,
Holub, Daniel,
Holub, Daniel,
Holub, Daniel,
Holub, Daniel,
Brunnbauer, Lukas,
Brunnbauer, Lukas,
Brunnbauer, Lukas,
Pořízka, Pavel,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Gregor Marolt,
Gregor Marolt,
Gregor Marolt,
Gregor Marolt,
Gregor Marolt,
Gregor Marolt,
Martin Kizovský,
Martin Kizovský,
Martin Kizovský,
Michaela Porkert,
Martin Kizovský,
Martin Kizovský,
Limbeck, Andreas,
Limbeck, Andreas,
Limbeck, Andreas,
Gabriela Kalčíková
Gregor Marolt,
Limbeck, Andreas,
Limbeck, Andreas,
Gregor Marolt,
Pořízka, Pavel,
Gabriela Kalčíková
Pořízka, Pavel,
Gregor Marolt,
Ota Samek,
Gabriela Kalčíková
Gregor Marolt,
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Ula Rozman,
Ula Rozman,
Ula Rozman,
Ula Rozman,
Jozef Kaiser,
Ula Rozman,
Gabriela Kalčíková
Gabriela Kalčíková
Gabriela Kalčíková
Jozef Kaiser,
Gregor Marolt,
Gabriela Kalčíková
Pořízka, Pavel,
Gregor Marolt,
Ota Samek,
Gabriela Kalčíková
Ula Rozman,
Gabriela Kalčíková
Gabriela Kalčíková
Limbeck, Andreas,
Gabriela Kalčíková
Gabriela Kalčíková
Pořízka, Pavel,
Gabriela Kalčíková
Gabriela Kalčíková
Ula Rozman,
Gregor Marolt,
Limbeck, Andreas,
Gabriela Kalčíková
Ula Rozman,
Holub, Daniel,
Gabriela Kalčíková
Ula Rozman,
Gregor Marolt,
Gabriela Kalčíková
Pořízka, Pavel,
Gregor Marolt,
Ula Rozman,
Ota Samek,
Ula Rozman,
Gregor Marolt,
Brunnbauer, Lukas,
Martin Kizovský,
Martin Kizovský,
Gabriela Kalčíková
Jozef Kaiser,
Gabriela Kalčíková
Gabriela Kalčíková
Brunnbauer, Lukas,
Brunnbauer, Lukas,
Brunnbauer, Lukas,
Limbeck, Andreas,
Markéta Benešová,
Gabriela Kalčíková
Ota Samek,
Gabriela Kalčíková
Gabriela Kalčíková
Brunnbauer, Lukas,
Brunnbauer, Lukas,
Brunnbauer, Lukas,
Ota Samek,
Jozef Kaiser,
Jozef Kaiser,
Jozef Kaiser,
Jozef Kaiser,
Limbeck, Andreas,
Limbeck, Andreas,
Limbeck, Andreas,
Limbeck, Andreas,
Limbeck, Andreas,
Brunnbauer, Lukas,
Brunnbauer, Lukas,
Gabriela Kalčíková
Pořízka, Pavel,
Gabriela Kalčíková
Gabriela Kalčíková
Pořízka, Pavel,
Pořízka, Pavel,
Gabriela Kalčíková
Limbeck, Andreas,
Pořízka, Pavel,
Pořízka, Pavel,
Pořízka, Pavel,
Jozef Kaiser,
Jozef Kaiser,
Gabriela Kalčíková
Jozef Kaiser,
Jozef Kaiser,
Jozef Kaiser,
Gabriela Kalčíková
Ota Samek,
Pořízka, Pavel,
Jozef Kaiser,
Jozef Kaiser,
Limbeck, Andreas,
Gabriela Kalčíková
Summary
Researchers applied laser-based analytical techniques including Raman and LIBS spectroscopy to detect and characterize microplastics covered with environmental biofilm. The methods successfully identified five polymer types under real-world conditions without requiring biofilm removal, avoiding the particle loss associated with conventional pre-treatment steps.
Microplastics found in the environment are often covered with a biofilm, which makes their analysis difficult. Therefore, the biofilm is usually removed before analysis, which may affect the microplastic particles or lead to their loss during the procedure. In this work, we used laser-based analytical techniques and evaluated their performance in detecting, characterizing, and classifying pristine and aged microplastics with a developed biofilm. Five types of microplastics from different polymers were selected (polyamide, polyethylene, polyethylene terephthalate, polypropylene, and polyvinyl chloride) and aged under controlled conditions in freshwater and wastewater. The development of biofilm and the changes in the properties of the microplastic were evaluated. The pristine and aged microplastics were characterized by standard methods (e.g., optical and scanning electron microscopy, and Raman spectroscopy), and then laser-induced breakdown spectroscopy (LIBS) and laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) were used. The results show that LIBS could identify different types of plastics regardless of the ageing and major biotic elements of the biofilm layer. LA-ICP-MS showed a high sensitivity to metals, which can be used as markers for various plastics. In addition, LA-ICP-MS can be employed in studies to monitor the adsorption and desorption (leaching) of metals during the ageing of microplastics. The use of these laser-based analytical techniques was found to be beneficial in the study of environmentally relevant microplastics.