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A simple method for detecting and quantifying microplastics utilizing fluorescent dyes - Safranine T, fluorescein isophosphate, Nile red based on thermal expansion and contraction property

Environmental Pollution 2019 162 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Lulu Lv, Lulu Lv, Chengyong Li Chengyong Li Lulu Lv, Junhao Qu, Zihua Yu, Zihua Yu, Chengyong Li Junhao Qu, Zihua Yu, Zihua Yu, Chengyong Li Daihuan Chen, Daihuan Chen, Chunxia Zhou, Chunxia Zhou, Chunxia Zhou, Chunxia Zhou, Chunxia Zhou, Chunxia Zhou, Chengyong Li Chunxia Zhou, Shengli Sun, Shengli Sun, Junhao Qu, Junhao Qu, Pengzhi Hong, Junhao Qu, Chengyong Li Chunxia Zhou, Pengzhi Hong, Pengzhi Hong, Pengzhi Hong, Pengzhi Hong, Junhao Qu, Shengli Sun, Shengli Sun, Shengli Sun, Chengyong Li Chengyong Li Shengli Sun, Shengli Sun, Chunxia Zhou, Pengzhi Hong, Pengzhi Hong, Pengzhi Hong, Chengyong Li Chengyong Li Chengyong Li Shengli Sun, Chengyong Li Shengli Sun, Shengli Sun, Chengyong Li Chengyong Li Shengli Sun, Pengzhi Hong, Pengzhi Hong, Shengli Sun, Pengzhi Hong, Chengyong Li Chengyong Li Chengyong Li Shengli Sun, Chunxia Zhou, Shengli Sun, Shengli Sun, Chengyong Li Chunxia Zhou, Chengyong Li Chunxia Zhou, Chengyong Li Chengyong Li Chengyong Li Chengyong Li Chengyong Li Pengzhi Hong, Chengyong Li Shengli Sun, Chengyong Li Pengzhi Hong, Chengyong Li Chengyong Li Pengzhi Hong, Chengyong Li Pengzhi Hong, Chengyong Li Chunxia Zhou, Chengyong Li Pengzhi Hong, Chunxia Zhou, Chengyong Li Shengli Sun, Chengyong Li Chengyong Li Chengyong Li Shengli Sun, Pengzhi Hong, Chengyong Li Shengli Sun, Chengyong Li Chengyong Li Chengyong Li Shengli Sun, Chengyong Li Chengyong Li Chengyong Li Chengyong Li

Summary

This paper describes a simple fluorescence-based method for detecting and quantifying microplastics using three dyes (Safranine T, fluorescein isophosphate, and Nile Red) that exploit the thermal expansion and contraction properties of plastics. The low-cost, accessible method aims to enable more widespread microplastic monitoring without expensive specialized equipment.

Polymers

PE PET PS PVC

Microplastics (particle size <5 mm) are an emerging contaminant for aquatic environmental, which have attracted increasing attention in worldwide range. In this study, an improved fluorescent staining method for detection and quantification of microplastics was developed based on thermal expansion and contraction. This method is effective in detection of polyethylene, polystyrene, polyvinyl chloride and polyethylene terephthalate plastic particles. In order to avoid error statistics caused by pretreatment, various characterizations of microplastics were measured after heated, such as microstructure, compositions and thermostability. The results showed that there was no significant damage to microplastics even under heating condition at 75 °C for 30 min, and the stained microplastics had strong stability for up to two months. Moreover, this method has been successfully applied to the quantification of microplastics in biological samples and result showed there were about 54 particles g (dry weight) microplastics in the Sipunculus nudus. This new method provides a reliable method for quantitative analysis of microplastics in environment and biological tissue.

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