Üçüncü, E.Özkan, A. D.Kurşungöz, C.Ülger, Z. E.Ölmez, T. T.Tekinay, T.Ortaç, B.Tunca E.2016-02-082016-02-0820140045-6535http://hdl.handle.net/11693/26657EnglishAdsorption isothermGrowth inhibitionLemna minorNanoparticlesSilverToxicityAdsorption isothermsBioremediationIndustrial poisonsNanoparticlesToxicityBioremediation agentConcentration rangesGrowth inhibitionLemna minorNatural conditionsSilver nanoparticlesSilver nanoparticles (AgNps)Sorption behaviorsSilverSilver nanoparticleAquatic plantBioremediationConcentration (composition)Growth rateLaser methodMacrophyteNumerical modelSilverSorptionToxicity testAbsorption spectroscopyAquatic environmentArticleBiomassEcotoxicityEnergy dispersive X ray analysisEnvironmental exposureEnvironmental impactFourier transformationFrondGrowth inhibitionGrowth rateInfrared spectroscopyLaserLemna minorLight scatteringMass spectrometryNanotechnologyNonhumanPhytotoxicityPlant growthSpectrophotometerTransmission electron microscopyX ray analysisLemna minorAdsorption isothermGrowth inhibitionLemna minorNanoparticlesSilverToxicityAdsorptionAraceaeBiodegradation, EnvironmentalEnvironmental PollutantsLasersMetal NanoparticlesModels, BiologicalParticle SizeSilverEffects of laser ablated silver nanoparticles on Lemna minorArticle10.1016/j.chemosphere.2014.01.049