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Journal Abstract Search

947 related items for PubMed ID: 29129432

  • 1. Occurrence and human exposure to brominated and organophosphorus flame retardants via indoor dust in a Brazilian city.
    Cristale J, Aragão Belé TG, Lacorte S, Rodrigues de Marchi MR.
    Environ Pollut; 2018 Jun; 237():695-703. PubMed ID: 29129432
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  • 2. Brominated and organophosphorus flame retardants in South African indoor dust and cat hair.
    Brits M, Brandsma SH, Rohwer ER, De Vos J, Weiss JM, de Boer J.
    Environ Pollut; 2019 Oct; 253():120-129. PubMed ID: 31302398
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  • 4. Occurrence of alternative flame retardants in indoor dust from New Zealand: indoor sources and human exposure assessment.
    Ali N, Dirtu AC, Van den Eede N, Goosey E, Harrad S, Neels H, 't Mannetje A, Coakley J, Douwes J, Covaci A.
    Chemosphere; 2012 Sep; 88(11):1276-82. PubMed ID: 22551874
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  • 5. Brominated and phosphate flame retardants (FRs) in indoor dust from different microenvironments: Implications for human exposure via dust ingestion and dermal contact.
    Zheng X, Qiao L, Covaci A, Sun R, Guo H, Zheng J, Luo X, Xie Q, Mai B.
    Chemosphere; 2017 Oct; 184():185-191. PubMed ID: 28595143
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  • 6. Exposure to brominated and organophosphate ester flame retardants in U.S. childcare environments: Effect of removal of flame-retarded nap mats on indoor levels.
    Stubbings WA, Schreder ED, Thomas MB, Romanak K, Venier M, Salamova A.
    Environ Pollut; 2018 Jul; 238():1056-1068. PubMed ID: 29703676
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  • 8. Emerging and legacy flame retardants in indoor dust from East China.
    Peng C, Tan H, Guo Y, Wu Y, Chen D.
    Chemosphere; 2017 Nov; 186():635-643. PubMed ID: 28818590
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  • 10. Measurement of legacy and emerging flame retardants in indoor dust from a rural village (Kopawa) in Nepal: Implication for source apportionment and health risk assessment.
    Yadav IC, Devi NL, Singh VK, Li J, Zhang G.
    Ecotoxicol Environ Saf; 2019 Jan 30; 168():304-314. PubMed ID: 30390529
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  • 11. Concentrations of brominated and phosphorous flame retardants in Finnish house dust and insights into children's exposure.
    Rantakokko P, Kumar E, Braber J, Huang T, Kiviranta H, Cequier E, Thomsen C.
    Chemosphere; 2019 May 30; 223():99-107. PubMed ID: 30771653
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  • 12. Exposure assessment of organophosphorus and organobromine flame retardants via indoor dust from elementary schools and domestic houses.
    Mizouchi S, Ichiba M, Takigami H, Kajiwara N, Takamuku T, Miyajima T, Kodama H, Someya T, Ueno D.
    Chemosphere; 2015 Mar 30; 123():17-25. PubMed ID: 25532762
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  • 14. Concentrations and variability of organophosphate esters, halogenated flame retardants, and polybrominated diphenyl ethers in indoor and outdoor air in Stockholm, Sweden.
    Wong F, de Wit CA, Newton SR.
    Environ Pollut; 2018 Sep 30; 240():514-522. PubMed ID: 29758525
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  • 17. Organophosphate flame retardants in the indoor air and dust in cars in Japan.
    Tokumura M, Hatayama R, Tatsu K, Naito T, Takeda T, Raknuzzaman M, -Al-Mamun MH, Masunaga S.
    Environ Monit Assess; 2017 Jan 30; 189(2):48. PubMed ID: 28054199
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  • 18. Levels of polybrominated diphenyl ethers and novel flame retardants in microenvironment dust from Egypt: an assessment of human exposure.
    Hassan Y, Shoeib T.
    Sci Total Environ; 2015 Feb 01; 505():47-55. PubMed ID: 25306095
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  • 20. Legacy and alternative flame retardants in Norwegian and UK indoor environment: Implications of human exposure via dust ingestion.
    Kademoglou K, Xu F, Padilla-Sanchez JA, Haug LS, Covaci A, Collins CD.
    Environ Int; 2017 May 01; 102():48-56. PubMed ID: 28190611
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