Release, Transport and Toxicity of Engineered Nanoparticles - Reviews of Environmental Contamination and Toxicology

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Milani N, MJ McLaughlin, GM Hettiarachchi, DG Beak, JK Kirby, SP Stacey (2010) Fate of

nanoparticulatezincoxidefertilisersinsoil:solubility,diffusionandsolidphasespeciation.In:

GilkesRJ,PrakongkepN(eds)Soilsolutionsforachangingworld:19thWorldCongressof

SoilScience,Brisbane,QLD,Australia.1-6Aug.2010.IUSS,pp172-174

Moore MN (2006) Do nanoparticles present ecotoxicological risks for the health of the aquatic

environment?EnvironInt32(8):967-976

Muller J, Huaux F, Moreau N, Mission P, Heilier JF, Delos M, Arras M, Fonseca A, Nagy JB, Lison D

(2005)Respiratorytoxicityofmulti-walledcarbonnanotubes.ToxicolApplPharma207:221-231

Murr LE, Garza KM (2009) Natural and anthropogenic environmental nanoparticulates: their

microstructural characterization and respiratory health implications. Atmos Environ

43(17):2683-2692

NavarroDA,BanerjeeS,WatsonDF,AgaDS(2011)Differencesinsoilmobilityanddegradability

betweenwater-dispersibleCdSeandCdSe/ZnSquantumdots.EnvironSciTechnol45:6343-6349

Nel A, Xia T, Madler L, Li N (2006) Toxic potential of materials at the nanolevel. Science

311:622-627

NgCT,LiJJ,BayBH,YungLYL(2010)Currentstudiesintothegenotoxiceffectsofnanomateri-

als. J Nucleic Acids 2010, Article ID 947859, 12 p

NobleCA,MukerjeeS,GonzalesM,RodesCE,LawlessPA,NatarajanS,MyersEA,NorrisGA,

SmithL,OzkaynakH,NeasLM(2003)Continuousmeasurementofineandultraineparticu-

late matter, criteria pollutants and meteorological conditions in urban El Paso, Texas. Atmos

Environ37:827-840

NowackB,BucheliTD(2007)Occurrence,behaviorandeffectsofnanoparticlesintheenviron-

ment.EnvironPollu150:5-22

OberdorsterE(2004)Manufacturednanomaterials(Fullerenes,C 60 ) induce oxidative stress in the

brainofjuvenilelargemouthbass.EnvironHealthPerspect112:1058-1062

OuelletteJ(2003)Buildingthenanofuturewithcarbontubes.IndPhys8:18-21

PalomaresIR,BoltesK,PinasFF,LeganesF,CalvoEG,SantiagoJ,RosalR(2011)Physicochemical

characterization and ecotoxicological assessment of CeO 2 nanoparticles using two aquatic

microorganisms.ToxicolSci119(1):135-145

PandeyRA,KumarA(1990)Heavymetalsincoalcarbonizationwastewaterandtheircomplex-

ation-someobservations.WaterAirSoilPollu50:31-38

PhamCH,YiJ,GuMB(2012)BiomarkergeneresponseinmaleMedaka( Oryzias latipes ) chroni-

callyexposedtosilvernanoparticle.EcotoxicolEnvironSaf78:239-245

PerfectE,SukopMC(2001)Modelsrelatingsolutedispersiontoporespacegeometryinsaturated

media: a review. Physical and chemical processes of water and solute transport/retention in

soil,vol56.SoilScienceSocietyofAmerica,Madison,WI,pp77-146

PisanicTRII,BlackwellJD,ShubayevVI,FinonesRR,JinS(2007)Nanotoxicityofironoxide

nanoparticleinternalizationingrowingneurons.Biomaterials28:2572-2581

QianX,PengXH,AnsariDO,Yin-GoenQ,ChenGZ,ShinDM,YangL,YoungAN,WangMD,

NieS(2008) In vivo tumor targeting and spectroscopic detection with surface-enhanced Raman

nanoparticletags.NatBiotechnol26(1):83-90

Raj K, Moskowitz R (1990) Commercial applications of ferrofluids. Magn Magn Mater

85(1-3):233-245

RamtekeC,ChakrabartiT,SarangiBK,PandeyRA(2012)Synthesisofsilvernanoparticlesfrom

theaqueousextractofleavesofOcimumsanctumforenhancedantibacterialactivity.JChem

2013:1-7

RamtekeC,SarangiBK,ChakrabartiT,MudliarS,SatputeD,PandeyRA(2010)Synthesisand

broadspectrumantibacterialactivityofmagnetiteferroluid.CurrNano6(6):587-591

Roco MC, Bainbridge WS (2005) Societal implications of nanoscience and nanotechnology:

maximizinghumanbeneit.JNanopartRes7:1-13

Rodr￭guez JA, Fern￡ndez-Garc￭a M (2007) Synthesis, properties and applications of oxide

nanoparticles.JohnWiley&Sons,Totowa,NJ,pp335-351

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