Novel Brominated Flame Retardants in Dust from E-Waste-Dismantling Workplace in Central China: Contamination Status and Human Exposure Assessment
暂无分享,去创建一个
Hongkai Zhu | Leicheng Zhao | Qiuyue Zhang | Zhipeng Cheng | Yu Wang | Hongwen Sun | Wenbin Bai | Xuelin Li
[1] Hongkai Zhu,et al. E-waste dismantling-related occupational and routine exposure to melamine and its derivatives: Estimating exposure via dust ingestion and hand-to-mouth contact. , 2022, Environment international.
[2] B. Bocca,et al. E-WASTE threatens health: The scientific solution adopts the one health strategy. , 2022, Environmental research.
[3] S. Harrad,et al. Exposure, risk and predictors of hexabromocyclododecane and Tetrabromobisphenol-A in house dust from urban, rural and E-waste dismantling sites in Thailand. , 2022, Chemosphere.
[4] Bingsheng Zhou,et al. Brominated flame retardants (BFRs) in sediment from a typical e-waste dismantling region in Southern China: Occurrence, spatial distribution, composition profiles, and ecological risks. , 2022, The Science of the total environment.
[5] C. Saron,et al. Enhanced mechanical properties of recycled blends acrylonitrile–butadiene–styrene/high–impact polystyrene from waste electrical and electronic equipment using compatibilizers and virgin polymers , 2021, Journal of Applied Polymer Science.
[6] Lei Wang,et al. Occurrence of novel organophosphate esters derived from organophosphite antioxidants in an e-waste dismantling area: Associations between hand wipes and dust. , 2021, Environment international.
[7] Bingsheng Zhou,et al. Characteristics of legacy and novel brominated flame retardants in water and sediment surrounding two e-waste dismantling regions in Taizhou, eastern China. , 2021, The Science of the total environment.
[8] Zijian Wang,et al. Occurrence, bioaccumulation, fate, and risk assessment of novel brominated flame retardants (NBFRs) in aquatic environments - A critical review. , 2021, Water research.
[9] Shin Takahashi,et al. Comprehensive determination of polychlorinated biphenyls and brominated flame retardants in surface sediment samples from Hanoi urban area, Vietnam: Contamination status, accumulation profiles, and potential ecological risks. , 2021, Environmental research.
[10] Shin Takahashi,et al. Contamination status, emission sources, and human health risk of brominated flame retardants in urban indoor dust from Hanoi, Vietnam: the replacement of legacy polybrominated diphenyl ether mixtures by alternative formulations , 2021, Environmental Science and Pollution Research.
[11] Hai Guo,et al. Probing Legacy and Alternative Flame Retardants in the Air of Chinese Cities. , 2021, Environmental science & technology.
[12] Xiaojun Luo,et al. Halogenated flame retardants in surface sediments from fourteen estuaries, South China. , 2021, Marine pollution bulletin.
[13] H. You,et al. New understanding of novel brominated flame retardants (NBFRs): Neuro(endocrine) toxicity. , 2021, Ecotoxicology and environmental safety.
[14] Hongwen Sun,et al. A low-volume air sampling method for legacy and novel brominated flame retardants in indoor environment using a newly developed sorbent mixture. , 2021, Ecotoxicology and environmental safety.
[15] P. K. Lam,et al. Occurrence and spatial distribution of legacy and novel brominated flame retardants in seawater and sediment of the South China sea. , 2020, Environmental pollution.
[16] Hongkai Zhu,et al. Spatial and temporal distributions of hexabromocyclododecanes in surface soils of Jinan, China , 2020, Environmental Monitoring and Assessment.
[17] Xinming Wang,et al. Legacy and novel halogenated flame retardants in seawater and atmosphere of the Bohai Sea: Spatial trends, seasonal variations, and influencing factors. , 2020, Water research.
[18] J. de Boer,et al. Novel brominated flame retardants - A review of their occurrence in indoor air, dust, consumer goods and food. , 2020, Chemosphere.
[19] Shin Takahashi,et al. Bioaccessibility and exposure assessment of flame retardants via dust ingestion for workers in e-waste processing workshops in northern Vietnam. , 2020, Chemosphere.
[20] Feng Tan,et al. Characteristics of halogenated flame retardants in the atmosphere of Dalian, China , 2020 .
[21] P. Sanz,et al. Organophosphate compounds, polybrominated diphenyl ethers and novel brominated flame retardants in European indoor house dust: Use, evidence for replacements and assessment of human exposure. , 2020, Journal of hazardous materials.
[22] G. Jiang,et al. A review of environmental occurrence, fate, and toxicity of novel brominated flame retardants. , 2019, Environmental science & technology.
[23] K. Kannan,et al. Organophosphate di- and tri-esters in indoor and outdoor dust from China and its implications for human exposure. , 2019, The Science of the total environment.
[24] M. Diamond,et al. Exposure of Canadian electronic waste dismantlers to flame retardants. , 2019, Environment International.
[25] Y. Meng,et al. Occupational exposure characteristics and health risk of PBDEs at different domestic e-waste recycling workshops in China. , 2019, Ecotoxicology and environmental safety.
[26] Da Chen,et al. Legacy and alternative flame retardants in house dust and hand wipes from South China. , 2019, The Science of the total environment.
[27] Xiaobo Zheng,et al. Legacy and Currently Used Organic Contaminants in Human Hair and Hand Wipes of Female E-Waste Dismantling Workers and Workplace Dust in South China. , 2019, Environmental science & technology.
[28] Qingwei Bu,et al. Polybrominated diphenyl ethers and novel brominated flame retardants in indoor dust of different microenvironments in Beijing, China. , 2019, Environment international.
[29] K. Kannan,et al. Legacy and alternative brominated flame retardants in outdoor dust and pine needles in mainland China: Spatial trends, dust-plant partitioning and human exposure. , 2018, Environmental pollution.
[30] K. Kannan,et al. Occurrence and distribution of organophosphate flame retardants (OPFRs) in soil and outdoor settled dust from a multi-waste recycling area in China. , 2018, The Science of the total environment.
[31] Yongning Wu,et al. Legacy and emerging brominated flame retardants in China: A review on food and human milk contamination, human dietary exposure and risk assessment. , 2018, Chemosphere.
[32] M. Diamond,et al. Alternative Flame Retardant, 2,4,6-Tris(2,4,6-tribromophenoxy)-1,3,5-triazine, in an E-waste Recycling Facility and House Dust in North America. , 2018, Environmental science & technology.
[33] C. Samara,et al. Legacy and novel brominated flame retardants in interior car dust - Implications for human exposure. , 2017, Environmental pollution.
[34] Yi-Fan Li,et al. Occurrence and Source Effect of Novel Brominated Flame Retardants (NBFRs) in Soils from Five Asian Countries and Their Relationship with PBDEs. , 2017, Environmental science & technology.
[35] A. Ball,et al. Detection of novel brominated flame retardants (NBFRs) in the urban soils of Melbourne, Australia , 2017 .
[36] Jun Huang,et al. Brominated flame retardants (BFRs): A review on environmental contamination in China. , 2016, Chemosphere.
[37] Paola Gramatica,et al. Are some "safer alternatives" hazardous as PBTs? The case study of new flame retardants. , 2016, Journal of hazardous materials.
[38] A. Cousins,et al. Physical-chemical properties and evaluative fate modelling of 'emerging' and 'novel' brominated and organophosphorus flame retardants in the indoor and outdoor environment. , 2015, The Science of the total environment.
[39] A. Covaci,et al. Flame retardants and organochlorines in indoor dust from several e-waste recycling sites in South China: composition variations and implications for human exposure. , 2015, Environment international.
[40] Yi-Fan Li,et al. Levels, distribution and human exposure of new non-BDE brominated flame retardants in the indoor dust of China. , 2014, Environmental pollution.
[41] Marta Venier,et al. Has the phase-out of PBDEs affected their atmospheric levels? Trends of PBDEs and their replacements in the Great Lakes atmosphere. , 2013, Environmental science & technology.
[42] Ord,et al. Integrated Risk Information System , 2013 .
[43] Xiaojun Luo,et al. Current levels and composition profiles of PBDEs and alternative flame retardants in surface sediments from the Pearl River Delta, southern China: comparison with historical data. , 2013, The Science of the total environment.
[44] J. Hajšlová,et al. Occurrence of brominated flame retardants in household and car dust from the Czech Republic. , 2012, The Science of the total environment.
[45] Xiaojun Luo,et al. Bioaccumulation of polybrominated diphenyl ethers and decabromodiphenyl ethane in fish from a river system in a highly industrialized area, South China. , 2012, The Science of the total environment.
[46] R. Law,et al. A review of the analysis of novel brominated flame retardants. , 2012, Journal of chromatography. A.
[47] H. Neels,et al. "Novel" brominated flame retardants in Belgian and UK indoor dust: implications for human exposure. , 2011, Chemosphere.
[48] A. Covaci,et al. Novel brominated flame retardants: a review of their analysis, environmental fate and behaviour. , 2011, Environment international.
[49] Jing Wang,et al. Brominated flame retardants in house dust from e-waste recycling and urban areas in South China: implications on human exposure. , 2010, Environment international.
[50] Yongning Wu,et al. Dietary exposure assessment of Chinese adults and nursing infants to tetrabromobisphenol-A and hexabromocyclododecanes: occurrence measurements in foods and human milk. , 2009, Environmental science & technology.
[51] Heather M Stapleton,et al. Alternate and new brominated flame retardants detected in U.S. house dust. , 2008, Environmental science & technology.
[52] C. Marvin,et al. Bioaccumulation and trophic transfer of some brominated flame retardants in a Lake Winnipeg (Canada) food web , 2006, Environmental toxicology and chemistry.
[53] Kjell Öberg,et al. Chemical characterization of brominated flame retardants and identification of structurally representative compounds , 2006, Environmental toxicology and chemistry.
[54] Bingsheng Zhou,et al. Brominated Flame Retardants (Bfrs) in Sediment from a Typical E-Waste Dismantling Region in Southern China: Occurrence, Spatial Distribution, Composition Profiles, and Ecological Risks , 2021, SSRN Electronic Journal.