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W3041503463 startingPage "127633" @default.
W3041503463 abstract "To investigate the status of organophosphate flame retardants (OPFRs) in indoor dust in China, published scientific studies were systematically collected and analyzed. The analysis revealed large variations among microenvironments, including offices (median: 14.59 μg/g) and e-waste workshops (median: 13.36 μg/g), with high levels of OPFRs contamination. Chlorinated organophosphate ester flame retardants (Cl-OPFRs) were the dominant OPFRs (52–75%) in most indoor dust samples; however, in e-waste workshops, aryl- and alkyl-OPFRs were the most abundant. As an alternative flame retardant to polybrominated diphenyl ethers (PBDEs), OPFRs concentrations have increased in recent years in indoor environments in China. Urban sources are of greatest concern: Shanghai (mean: 13.54 μg/g), Guangzhou (mean: 10.76 μg/g), and Beijing (mean: 9.37 μg/g) have high ΣOPFRs contamination levels in indoor dust. Compared to other countries, the OPFRs concentrations in indoor dust in all studied microenvironments from China (median: 8.81 μg/g) were low. The estimated daily intakes of ΣOPFRs by dust ingestion for adults and children were 2.12 and 11.06 ng/kg/body weight/day (average), respectively. Human exposure to OPFRs through the accidental intake of indoor dust does not pose a direct health risk to the Chinese population. However, indoor dust ingestion is an important route for human exposure to OPFRs." @default.
W3041503463 created "2020-07-16" @default.
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W3041503463 date "2020-12-01" @default.
W3041503463 modified "2023-10-14" @default.
W3041503463 title "A review on organophosphate flame retardants in indoor dust from China: Implications for human exposure" @default.
W3041503463 cites W1972155984 @default.
W3041503463 cites W1980709324 @default.
W3041503463 cites W1985370990 @default.
W3041503463 cites W1986562660 @default.
W3041503463 cites W1998061900 @default.
W3041503463 cites W2003412246 @default.
W3041503463 cites W2013395899 @default.
W3041503463 cites W2022029595 @default.
W3041503463 cites W2022772992 @default.
W3041503463 cites W2027542263 @default.
W3041503463 cites W2027701630 @default.
W3041503463 cites W2034517948 @default.
W3041503463 cites W2037001500 @default.
W3041503463 cites W2038699706 @default.
W3041503463 cites W2040781815 @default.
W3041503463 cites W2052827499 @default.
W3041503463 cites W2057505443 @default.
W3041503463 cites W2065696774 @default.
W3041503463 cites W2071591569 @default.
W3041503463 cites W2073246405 @default.
W3041503463 cites W2132405258 @default.
W3041503463 cites W2133789411 @default.
W3041503463 cites W2135500029 @default.
W3041503463 cites W2159200188 @default.
W3041503463 cites W2166169043 @default.
W3041503463 cites W2198754554 @default.
W3041503463 cites W2230279871 @default.
W3041503463 cites W2237435168 @default.
W3041503463 cites W2309474928 @default.
W3041503463 cites W2323151664 @default.
W3041503463 cites W2323322283 @default.
W3041503463 cites W2323954892 @default.
W3041503463 cites W2324491479 @default.
W3041503463 cites W2327347783 @default.
W3041503463 cites W2419530695 @default.
W3041503463 cites W2472319174 @default.
W3041503463 cites W2478644926 @default.
W3041503463 cites W2498328254 @default.
W3041503463 cites W2544891225 @default.
W3041503463 cites W2587730588 @default.
W3041503463 cites W2588046053 @default.
W3041503463 cites W2593796739 @default.
W3041503463 cites W2618061956 @default.
W3041503463 cites W2620576019 @default.
W3041503463 cites W2626132856 @default.
W3041503463 cites W2735655665 @default.
W3041503463 cites W2744305749 @default.
W3041503463 cites W2764243441 @default.
W3041503463 cites W2767690247 @default.
W3041503463 cites W2776218440 @default.
W3041503463 cites W2790369684 @default.
W3041503463 cites W2791062597 @default.
W3041503463 cites W2794387396 @default.
W3041503463 cites W2799765033 @default.
W3041503463 cites W2886660841 @default.
W3041503463 cites W2891885491 @default.
W3041503463 cites W2901781304 @default.
W3041503463 cites W2912791356 @default.
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W3041503463 cites W2966929883 @default.
W3041503463 cites W2979828155 @default.
W3041503463 cites W2981598576 @default.
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W3041503463 doi "https://doi.org/10.1016/j.chemosphere.2020.127633" @default.
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