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Journal Abstract Search

336 related items for PubMed ID: 22452441

  • 1. Biotic and abiotic interactions in aquatic microcosms determine fate and toxicity of Ag nanoparticles. Part 1. Aggregation and dissolution.
    Unrine JM, Colman BP, Bone AJ, Gondikas AP, Matson CW.
    Environ Sci Technol; 2012 Jul 03; 46(13):6915-24. PubMed ID: 22452441
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  • 2. Biotic and abiotic interactions in aquatic microcosms determine fate and toxicity of Ag nanoparticles: part 2-toxicity and Ag speciation.
    Bone AJ, Colman BP, Gondikas AP, Newton KM, Harrold KH, Cory RM, Unrine JM, Klaine SJ, Matson CW, Di Giulio RT.
    Environ Sci Technol; 2012 Jul 03; 46(13):6925-33. PubMed ID: 22680837
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  • 5. Hydrophobic interactions increase attachment of gum Arabic- and PVP-coated Ag nanoparticles to hydrophobic surfaces.
    Song JE, Phenrat T, Marinakos S, Xiao Y, Liu J, Wiesner MR, Tilton RD, Lowry GV.
    Environ Sci Technol; 2011 Jul 15; 45(14):5988-95. PubMed ID: 21692483
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  • 6. The impact of size on the fate and toxicity of nanoparticulate silver in aquatic systems.
    Angel BM, Batley GE, Jarolimek CV, Rogers NJ.
    Chemosphere; 2013 Sep 15; 93(2):359-65. PubMed ID: 23732009
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  • 7. Water chemistry controlled aggregation and photo-transformation of silver nanoparticles in environmental waters.
    Yin Y, Yang X, Zhou X, Wang W, Yu S, Liu J, Jiang G.
    J Environ Sci (China); 2015 Aug 01; 34():116-25. PubMed ID: 26257354
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  • 11. Stability of citrate, PVP, and PEG coated silver nanoparticles in ecotoxicology media.
    Tejamaya M, Römer I, Merrifield RC, Lead JR.
    Environ Sci Technol; 2012 Jul 03; 46(13):7011-7. PubMed ID: 22432856
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  • 12. Sulfidation processes of PVP-coated silver nanoparticles in aqueous solution: impact on dissolution rate.
    Levard C, Reinsch BC, Michel FM, Oumahi C, Lowry GV, Brown GE.
    Environ Sci Technol; 2011 Jun 15; 45(12):5260-6. PubMed ID: 21598969
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  • 13. Influence of hardness on the bioavailability of silver to a freshwater snail after waterborne exposure to silver nitrate and silver nanoparticles.
    Stoiber T, Croteau MN, Römer I, Tejamaya M, Lead JR, Luoma SN.
    Nanotoxicology; 2015 Jun 15; 9(7):918-27. PubMed ID: 25676617
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  • 14. Partitioning of nanoparticle-originated dissolved silver in natural and artificial sediments.
    Rajala JE, Vehniäinen ER, Väisänen A, Kukkonen JVK.
    Environ Toxicol Chem; 2017 Oct 15; 36(10):2593-2601. PubMed ID: 28304113
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  • 15. Mobility of capped silver nanoparticles under environmentally relevant conditions.
    Thio BJ, Montes MO, Mahmoud MA, Lee DW, Zhou D, Keller AA.
    Environ Sci Technol; 2012 Jul 03; 46(13):6985-91. PubMed ID: 22133047
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  • 17. Comparing the effects of nanosilver size and coating variations on bioavailability, internalization, and elimination, using Lumbriculus variegatus.
    Coleman JG, Kennedy AJ, Bednar AJ, Ranville JF, Laird JG, Harmon AR, Hayes CA, Gray EP, Higgins CP, Lotufo G, Steevens JA.
    Environ Toxicol Chem; 2013 Sep 03; 32(9):2069-77. PubMed ID: 23686570
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  • 19. Cellular internalization of silver nanoparticles in gut epithelia of the estuarine polychaete Nereis diversicolor.
    García-Alonso J, Khan FR, Misra SK, Turmaine M, Smith BD, Rainbow PS, Luoma SN, Valsami-Jones E.
    Environ Sci Technol; 2011 May 15; 45(10):4630-6. PubMed ID: 21517067
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