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Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Detection Methods Nanoplastics Sign in to save

Fire releases micro- and nanoplastics: Raman imaging on burned disposable gloves

Environmental Pollution 2022 22 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 40 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Yunlong Luo, Yunlong Luo, Yunlong Luo, Cheng Fang, Cheng Fang, Yunlong Luo, Yunlong Luo, Cheng Fang, Yunlong Luo, Yunlong Luo, Cheng Fang, Cheng Fang, Yunlong Luo, Yunlong Luo, Cheng Fang, Yunlong Luo, Cheng Fang, Cheng Fang, Cheng Fang, Cheng Fang, Cheng Fang, Cheng Fang, Yunlong Luo, Cheng Fang, Cheng Fang, Yunlong Luo, Cheng Fang, Cheng Fang, Cheng Fang, Yunlong Luo, Cheng Fang, Cheng Fang, Cheng Fang, Yunlong Luo, Yunlong Luo, Cheng Fang, Yunlong Luo, Yunlong Luo, Yunlong Luo, Yunlong Luo, Cheng Fang, Cheng Fang, Yunlong Luo, Yunlong Luo, Christopher T. Gibson, Christopher T. Gibson, Cheng Fang, Cheng Fang, Ravi Naidu, Christopher T. Gibson, Ravi Naidu, Ravi Naidu, Ravi Naidu, Christopher T. Gibson, Ravi Naidu, Ravi Naidu, Ravi Naidu, Ravi Naidu, Clarence Chuah, Clarence Chuah, Yunlong Luo, Yunlong Luo, Yunlong Luo, Yunlong Luo, Yunlong Luo, Yunlong Luo, Yunlong Luo, Yunlong Luo, Yunlong Luo, Yunlong Luo, Yunlong Luo, Christopher T. Gibson, 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, Ravi Naidu, Christopher T. Gibson, Christopher T. Gibson, Christopher T. Gibson, 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, Clarence Chuah, Ravi Naidu, Ravi Naidu, Cheng Fang, Christopher T. Gibson, Clarence Chuah, Ravi Naidu, Cheng Fang, Christopher T. Gibson, Youhong Tang, Cheng Fang, Youhong Tang, Youhong Tang, Youhong Tang, Cheng Fang, Youhong Tang, Ravi Naidu, Ravi Naidu, Clarence Chuah, Ravi Naidu, Ravi Naidu, Ravi Naidu, Christopher T. Gibson, Cheng Fang, Cheng Fang, Cheng Fang, Yinlan Ruan Ravi Naidu, Ravi Naidu, Ravi Naidu, Ravi Naidu, Christopher T. Gibson, Ravi Naidu, Ravi Naidu, Ravi Naidu, Ravi Naidu, Ravi Naidu, Ravi Naidu, Christopher T. Gibson, Youhong Tang, Cheng Fang, Cheng Fang, Youhong Tang, Cheng Fang, Cheng Fang, Cheng Fang, Cheng Fang, Cheng Fang, Cheng Fang, Youhong Tang, Cheng Fang, Youhong Tang, Cheng Fang, Cheng Fang, Cheng Fang, Ravi Naidu, Ravi Naidu, Ravi Naidu, Ravi Naidu, Ravi Naidu, Christopher T. Gibson, Ravi Naidu, Ravi Naidu, Ravi Naidu, Ravi Naidu, Ravi Naidu, Cheng Fang, Cheng Fang, Ravi Naidu, Yunlong Luo, Yinlan Ruan Cheng Fang, Yunlong Luo, Ravi Naidu, Ravi Naidu, Cheng Fang, Cheng Fang, Cheng Fang, Cheng Fang, Yinlan Ruan Cheng Fang, Cheng Fang, Ravi Naidu, Ravi Naidu, Yinlan Ruan Ravi Naidu, Ravi Naidu, Yinlan Ruan Yinlan Ruan

Summary

Researchers found that burning disposable plastic gloves, as occurred during mass disposal of COVID-19 personal protective equipment, releases micro- and nanoplastics detectable via Raman imaging, highlighting fire as an underappreciated pathway for generating and dispersing plastic particles into the environment.

Raman imaging can effectively characterise microplastics and nanoplastics, which is validated here to capture the items released from the plastic gloves when subjected to a mimicked fire. During the COVID-19 pandemic, large quantities of personal protective equipment (PPE) units have been used, such as the disposable gloves. If discarded and poorly managed, plastics gloves might break down to release secondary contaminants. The breakdown process can be accelerated by burning in a bushfire or at the incineration plants. During the burning process, the functional groups on the surface can be burned differently due to their different thermal stabilities. The different degrees of burning can be distinguished and visualised via Raman imaging. In the meantime, at the bottom of the burned plastics, microplastics and nanoplastics can be generated at a significant amount. The possible false Raman imaging on microplastics and nanoplastics is also discussed, by effectively extracting and distinguishing the weak signal from the background or noise. Overall, these findings confirm the importance of effectively working waste incineration plants and litter prevention, and suggest that Raman imaging is a suitable approach to characterise microplastics and nanoplastics.

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