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To what extent are we really free from airborne microplastics?
The Science of The Total Environment2020
66 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.
Nian Wei,
Yinan He,
Kai Liu,
Kai Liu,
Kai Liu,
Kai Liu,
Xiaohui Wang,
Changxing Zong,
Daoji Li
Changxing Zong,
Changjun Li,
Changjun Li,
Changjun Li,
Changxing Zong,
Kai Liu,
Nian Wei,
Changjun Li,
Changjun Li,
Changjun Li,
Kai Liu,
Kai Liu,
Daoji Li,
Kai Liu,
Kai Liu,
Feng Zhang,
Nian Wei,
Feng Zhang,
Feng Zhang,
Daoji Li,
Changjun Li,
Nian Wei,
Yinan He,
Xiaohui Wang,
Xiaohui Wang,
Xiaohui Wang,
Nian Wei,
Kai Liu,
Xiaohui Wang,
Changjun Li,
Daoji Li
Changjun Li,
Xiaohui Wang,
Kai Liu,
Xiaohui Wang,
Nian Wei,
Changjun Li,
Changjun Li,
Xiaohui Wang,
Changjun Li,
Xiaohui Wang,
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Chun-Hua Jiang,
Feng Zhang,
Feng Zhang,
Feng Zhang,
Kai Liu,
Nian Wei,
Nian Wei,
Nian Wei,
Kai Liu,
Nian Wei,
Xiaohui Wang,
Feng Zhang,
Changxing Zong,
Chun-Hua Jiang,
Daoji Li
Daoji Li,
Daoji Li
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Nian Wei,
Daoji Li,
Changjun Li,
Nian Wei,
Xiaohui Wang,
Changjun Li,
Daoji Li
Daoji Li,
Daoji Li,
Changjun Li,
Daoji Li,
Daoji Li
Daoji Li
Daoji Li,
Xiaohui Wang,
Daoji Li
Xiaohui Wang,
Nian Wei,
Xiaohui Wang,
Daoji Li
Changjun Li,
Daoji Li
Nian Wei,
Daoji Li
Xiaohui Wang,
Changjun Li,
Changxing Zong,
Changxing Zong,
Daoji Li
Feng Zhang,
Kai Liu,
Feng Zhang,
Daoji Li
Chun-Hua Jiang,
Changxing Zong,
Changxing Zong,
Daoji Li
Changxing Zong,
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Yinan He,
Nian Wei,
Nian Wei,
Nian Wei,
Nian Wei,
Nian Wei,
Changjun Li,
Changjun Li,
Changjun Li,
Xiaohui Wang,
Xiaohui Wang,
Kai Liu,
Feng Zhang,
Feng Zhang,
Feng Zhang,
Chun-Hua Jiang,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li
Kai Liu,
Daoji Li
Kai Liu,
Daoji Li
Chun-Hua Jiang,
Daoji Li
Chun-Hua Jiang,
Daoji Li,
Daoji Li
Daoji Li
Daoji Li
Changxing Zong,
Daoji Li
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Changxing Zong,
Daoji Li,
Changxing Zong,
Daoji Li,
Daoji Li
Daoji Li,
Daoji Li,
Xiaohui Wang,
Changjun Li,
Changjun Li,
Xiaohui Wang,
Daoji Li
Nian Wei,
Nian Wei,
Nian Wei,
Daoji Li
Daoji Li,
Daoji Li,
Daoji Li,
Daoji Li,
Feng Zhang,
Daoji Li,
Daoji Li,
Daoji Li
Daoji Li,
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Daoji Li
Xiaohui Wang,
Chun-Hua Jiang,
Daoji Li,
Daoji Li
Daoji Li,
Changxing Zong,
Daoji Li,
Chun-Hua Jiang,
Daoji Li
Changxing Zong,
Xiaohui Wang,
Daoji Li,
Daoji Li,
Yinan He,
Daoji Li
Xiaohui Wang,
Daoji Li,
Daoji Li,
Kai Liu,
Feng Zhang,
Daoji Li
Daoji Li,
Daoji Li
Daoji Li
Nian Wei,
Changjun Li,
Changjun Li,
Yinan He,
Changjun Li,
Changxing Zong,
Feng Zhang,
Feng Zhang,
Changjun Li,
Feng Zhang,
Nian Wei,
Yinan He,
Daoji Li,
Changxing Zong,
Daoji Li
Feng Zhang,
Daoji Li
Daoji Li
Daoji Li,
Daoji Li,
Daoji Li
Daoji Li,
Daoji Li
Changxing Zong,
Kai Liu,
Daoji Li
Summary
Researchers assessed quality assurance methods for reducing airborne microplastic contamination during laboratory analysis, finding that washing experimental glassware removed 88-98% of airborne microplastics while ashing achieved 100% removal efficiency. The study demonstrates that ashing is the more reliable decontamination method and highlights the critical need for QA/QC protocols to ensure reliable microplastic data.
Quality assurance and quality control (QA&QC) procedures are vital for ensuring data reliability, but little is known about the use of such procedures in reducing airborne microplastic (MP) contamination. To address this issue, we tried to determine the efficiency of two common methods (washing and ashing experimental glassware) for removing airborne MPs and identified airborne contamination during MP analytical procedure. The results showed the removal efficiencies of washing and ashing were an average of 88%-98% and 100%, respectively, indicating that both methods could eliminate most of the spiked airborne MPs with no significant difference noted between the two methods. Although rigorous measures were taken to prevent contamination from ambient air, trace amounts of airborne MPs were still detected, which is an issue that has not been adequately investigated in previous studies. All of the procedural contaminants detected in this study were fibrous. Approximately 88% of these fibers were cotton-like (cotton, cellulose, and cellophane) fibers, and 13% of them were plastic. Surprisingly, cotton-like fibers and MPs had a similar size distribution, suggesting that they may have undergone a similar weathering process. In the end, to cope with inevitable airborne contamination, several measures were proposed for further research. Such measures will provide the necessary methodological assistance for accurate quantification of MP pollution in the field.