TY - JOUR
T1 - Occupational Inhalation Exposures to Nanoparticles at Six Singapore Printing Centers
AU - Setyawati, Magdiel I.
AU - Singh, Dilpreet
AU - Krishnan, Sriram P.R.
AU - Huang, Xian
AU - Wang, Mengjing
AU - Jia, Shenglan
AU - Goh, Bernice Huan Rong
AU - Ho, Chin Guan
AU - Yusoff, Ridhwan
AU - Kathawala, Mustafa H.
AU - Poh, Tuang Yeow
AU - Ali, Nur A.Tikah Binte Mohamed
AU - Chotirmall, Sanjay H.
AU - Aitken, Robert J.
AU - Riediker, Michael
AU - Christiani, David C.
AU - Fang, Mingliang
AU - Bello, Dhimiter
AU - Demokritou, Philip
AU - Ng, Kee Woei
N1 - Publisher Copyright:
Copyright © 2020 American Chemical Society.
PY - 2020/2/18
Y1 - 2020/2/18
N2 - Laser printers emit high levels of nanoparticles (PM0.1) during operation. Although it is well established that toners contain multiple engineered nanomaterials (ENMs), little is known about inhalation exposures to these nanoparticles and work practices in printing centers. In this report, we present a comprehensive inhalation exposure assessment of indoor microenvironments at six commercial printing centers in Singapore, the first such assessment outside of the United States, using real-time personal and stationary monitors, time-integrated instrumentation, and multiple analytical methods. Extensive presence of ENMs, including titanium dioxide, iron oxide, and silica, was detected in toners and in airborne particles collected from all six centers studied. We document high transient exposures to emitted nanoparticles (peaks of ∼500 000 particles/cm3, lung-deposited surface area of up to 220 μm2/cm3, and PM0.1 up to 16 μg/m3) with complex PM0.1 chemistry that included 40-60 wt % organic carbon, 10-15 wt % elemental carbon, and 14 wt % trace elements. We also record 271.6-474.9 pmol/mg of Environmental Protection Agency-priority polycyclic aromatic hydrocarbons. These findings highlight the potentially high occupational inhalation exposures to nanoparticles with complex compositions resulting from widespread usage of nano-enabled toners in the printing industry, as well as inadequate ENM-specific exposure control measures in these settings.
AB - Laser printers emit high levels of nanoparticles (PM0.1) during operation. Although it is well established that toners contain multiple engineered nanomaterials (ENMs), little is known about inhalation exposures to these nanoparticles and work practices in printing centers. In this report, we present a comprehensive inhalation exposure assessment of indoor microenvironments at six commercial printing centers in Singapore, the first such assessment outside of the United States, using real-time personal and stationary monitors, time-integrated instrumentation, and multiple analytical methods. Extensive presence of ENMs, including titanium dioxide, iron oxide, and silica, was detected in toners and in airborne particles collected from all six centers studied. We document high transient exposures to emitted nanoparticles (peaks of ∼500 000 particles/cm3, lung-deposited surface area of up to 220 μm2/cm3, and PM0.1 up to 16 μg/m3) with complex PM0.1 chemistry that included 40-60 wt % organic carbon, 10-15 wt % elemental carbon, and 14 wt % trace elements. We also record 271.6-474.9 pmol/mg of Environmental Protection Agency-priority polycyclic aromatic hydrocarbons. These findings highlight the potentially high occupational inhalation exposures to nanoparticles with complex compositions resulting from widespread usage of nano-enabled toners in the printing industry, as well as inadequate ENM-specific exposure control measures in these settings.
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U2 - 10.1021/acs.est.9b06984
DO - 10.1021/acs.est.9b06984
M3 - Article
C2 - 31967798
AN - SCOPUS:85080890056
SN - 0013-936X
VL - 54
SP - 2389
EP - 2400
JO - Environmental Science and Technology
JF - Environmental Science and Technology
IS - 4
ER -