A comprehensive SERS, SEM and EDX study of individual atmospheric PM2.5 particles in Chengdu, China

A comprehensive SERS, SEM and EDX study of individual atmospheric PM2.5 particles in Chengdu, China

Characterization of atmospheric fine particulate matter (PM2.5) in large cities has important implications for the study of their sources and formation mechanisms, as well as in developing effective measures to control air pollution. Herein, we report a holistic physical and chemical characterizatio...

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Bibliographic Details
Published in:The Science of the total environment 2023-07, Vol.883, p.163668-163668, Article 163668
Main Authors: Li, Dongxian, Yue, Weisheng, Gong, Tiancheng, Gao, Ping, Zhang, Tao, Luo, Yunfei, Wang, Changtao
Format: Article
Language:eng
Subjects:
Compounds and elements
Elemental analysis
Molecular analysis
Morphology analysis
PM2.5 pollution
Surface-enhanced Raman spectroscopy
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Summary:Characterization of atmospheric fine particulate matter (PM2.5) in large cities has important implications for the study of their sources and formation mechanisms, as well as in developing effective measures to control air pollution. Herein, we report a holistic physical and chemical characterization of PM2.5 by combining surface-enhanced Raman scattering (SERS) with scanning electron microscopy (SEM) and electron-induced X-ray spectroscopy (EDX). PM2.5 particles were collected in a suburban area of Chengdu, a large city in China with a population over 21 million. A special SERS chip composed of inverted hollow Au cone (IHAC) arrays was designed and fabricated to allow direct loading of PM2.5 particles. SERS and EDX were used to reveal the chemical composition, and particle morphologies were analyzed from SEM images. SERS data of atmospheric PM2.5 indicated qualitatively the presence of carbonaceous particulate matter, sulfate, nitrate, metal oxides and bioparticles. The EDX showed the presence of the elements C, N, O, Fe, Na, Mg, Al, Si, S, K, and Ca in the collected PM2.5. Morphology analysis showed that the particulates were mainly in the form of flocculent clusters, spherical, regular crystal shaped or irregularly shaped particles. Our chemical and physical analyses also revealed that the main sources of PM2.5 are automobile exhaust, secondary pollution caused by photochemical reactions in the air, dust, emission from nearby industrial exhaust, biological particles, other aggregated particles, and hygroscopic particles. SERS and SEM data collected during three different seasons showed that carbon-containing particles are the principal sources of PM2.5. Our study demonstrates that the SERS based technique, when combined with standard physicochemical characterization methods, is a powerful analytical tool to determine the sources of ambient PM2.5 pollution. Results obtained in this work may be valuable to the prevention and control of PM2.5 pollution in air. [Display omitted] •A SERS approach regarding of atmospheric environmental pollutant, PM2.5•A rapid, sensitive and non-destructive analysis of chemical properties of PM2.5•The inverted Au hole array was used to directly load PM2.5 without pretreatment.•A holistic physical and chemical characterization of PM2.5•The analytical method of PM2.5 by combining SERS with SEM and EDX
ISSN:0048-9697
1879-1026