Airborne monitoring to distinguish engineered nanomaterials from incidental particles for environmental health and safety
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Refinement of the Nanoparticle Emission Assessment Technique into the Nanomaterial Exposure Assessment Technique (NEAT 2.0)Mechanisms of carbon nanotube-induced toxicity: focus on oxidative stressExposure characterization of metal oxide nanoparticles in the workplaceDustiness of fine and nanoscale powdersEvaluation of a diffusion charger for measuring aerosols in a workplaceA strategy for assessing workplace exposures to nanomaterialsHealth and safety implications of occupational exposure to engineered nanomaterialsPerformance of particulate containment at nanotechnology workplacesUse of a condensation particle counter and an optical particle counter to assess the number concentration of engineered nanoparticlesOccupational exposure assessment in carbon nanotube and nanofiber primary and secondary manufacturers: mobile direct-reading samplingNanoparticle emission assessment technique (NEAT) for the identification and measurement of potential inhalation exposure to engineered nanomaterials - Part ANanoparticle emission assessment technique (NEAT) for the identification and measurement of potential inhalation exposure to engineered nanomaterials - Part B: results from 12 field studiesField application of the Nanoparticle Emission Assessment Technique (NEAT): task-based air monitoring during the processing of engineered Nanomaterials (ENM) at four facilitiesProtection factor for N95 filtering facepiece respirators exposed to laboratory aerosols containing different concentrations of nanoparticlesOccupational exposure to airborne nanomaterials: an assessment of worker exposure to aerosolized metal oxide nanoparticles in semiconductor wastewater treatmentIntegrating direct-reading exposure assessment methods into industrial hygiene practiceEffect of carbon nanotubes upon emissions from cutting and sanding carbon fiber-epoxy compositesExposure controls for nanomaterials at three manufacturing sitesAssessment of two portable real-time particle monitors used in nanomaterial workplace exposure evaluationsComparison of simulated workplace protection factors offered by N95 and P100 filtering facepiece and elastomeric half-mask respirators against particles of 10 to 400 nmNew methods for personal exposure monitoring for airborne particlesOccupational exposure to airborne nanomaterials: an assessment of worker exposure to aerosolized metal oxide nanoparticles in a semiconductor fab and subfabAn integrated methodology for the assessment of environmental health implications during thermal decomposition of nano-enabled productsNanosilver induces minimal lung toxicity or inflammation in a subacute murine inhalation modelFunctionality based detection of airborne engineered nanoparticles in quasi real time: a new type of detector and a new metricNanoparticle exposure at nanotechnology workplaces: a reviewExposure to airborne particles and volatile organic compounds from polyurethane molding, spray painting, lacquering, and gluing in a workshopInteractions between nanosized materials and the brainWorkplace Exposure to Titanium Dioxide Nanopowder Released from a Bag Filter SystemRat pulmonary responses to inhaled nano-TiO₂: effect of primary particle size and agglomeration stateOccupational health risk to nanoparticulate exposure.In Vivo Toxicity Studies of Metal and Metal Oxide NanoparticlesWorkplace practices for engineered nanomaterial manufacturers.Assessment of the contribution of electron microscopy to nanoparticle characterization sampled with two cascade impactors.Conceptual model for assessment of inhalation exposure to manufactured nanoparticles.A laboratory study of the performance of the handheld diffusion size classifier (DiSCmini) for various aerosols in the 15-400 nm range.Application of Scanning Electron Microscopy With Energy-Dispersive X-Ray Spectroscopy for Analyzing Ocular Surface Particles on Schirmer Strips.Assessment of Human Exposure to ENMs.A Personal, Thermophoretic Sampler for Airborne Nanoparticles
P2860
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P2860
Airborne monitoring to distinguish engineered nanomaterials from incidental particles for environmental health and safety
description
2009 nî lūn-bûn
@nan
2009 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Airborne monitoring to disting ...... nvironmental health and safety
@ast
Airborne monitoring to disting ...... nvironmental health and safety
@en
Airborne monitoring to disting ...... nvironmental health and safety
@en-gb
Airborne monitoring to disting ...... nvironmental health and safety
@nl
type
label
Airborne monitoring to disting ...... nvironmental health and safety
@ast
Airborne monitoring to disting ...... nvironmental health and safety
@en
Airborne monitoring to disting ...... nvironmental health and safety
@en-gb
Airborne monitoring to disting ...... nvironmental health and safety
@nl
prefLabel
Airborne monitoring to disting ...... nvironmental health and safety
@ast
Airborne monitoring to disting ...... nvironmental health and safety
@en
Airborne monitoring to disting ...... nvironmental health and safety
@en-gb
Airborne monitoring to disting ...... nvironmental health and safety
@nl
P2093
P2860
P921
P1476
Airborne monitoring to disting ...... nvironmental health and safety
@en
P2093
Heaweon Park
Patrick O'Shaughnessy
Ronald Johnson
Sherrie Elzey
Tabitha Maher
Thomas M Peters
Vicki H Grassian
P2860
P2880
P356
10.1080/15459620802590058
P407
P577
2009-02-01T00:00:00Z