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Journal of Nanoparticle Research

Erschienen in:

01.02.2011 | Research Paper

Analysis of particle release using LIBS (laser-induced breakdown spectroscopy) and TEM (transmission electron microscopy) samplers when handling CNT (carbon nanotube) powders

verfasst von: B. R’mili, C. Dutouquet, J. B. Sirven, O. Aguerre-Chariol, E. Frejafon

Erschienen in: Journal of Nanoparticle Research | Ausgabe 2/2011

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Abstract

Carbon Nanotubes (CNTs) are deemed as revolutionary materials very likely to be utilized in numerous fields such as electronics, energy, and medicine, to name but a few. The emergence of this new fiber-shaped material with remarkable properties and dimensions of a few micrometers in length and a few tens of nanometers in diameter raises concerns about potential exposure of workers involved in the whole production cycle. These risks emphasize the need to develop tools allowing identifying such objects, either as isolated fibers or entangled in bundles, in situ and if possible in real time. In this context, experiments aiming at detecting potential particle release while manipulating raw CNT powders were performed at ARKEMA research center in a high safety cell dedicated to scientific experiments. Two techniques were employed. First, particle collection on TEM grids was achieved using two samplers, the first based on aspiration and the second on diffusion assisted with thermophoretic repulsion. These allowed differed analysis of single particle morphology, size and chemical composition. Second, real time multi-elemental composition of particle emission was monitored using LIBS. Eventually, though not quantitative, the coupling of TEM grid analysis with LIBS data demonstrated the possibility of real time detection of CNTs entangled in bundles.

Vorheriger Artikel Fabrication and characterization of CdS-sensitized TiO2 nanotube photoelectrode

Nächster Artikel Evaluation of a soft X-ray unipolar charger for charging nanoparticles

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Amodeo T, Dutouquet C, Tenegal F, Guizard B, Maskrot H, Le Bihan O, Frejafon E (2008) On-line monitoring of composite nanoparticles synthesized in a pre-industrial laser pyrolysis reactor using laser-induced breakdown spectroscopy. Spectrochim Acta Part B 63:1183–1190CrossRef

Amodeo T, Dutouquet C, Le-Bihan O, Attoui M, Fréjafon E (2009) On-line determination of nanometric and sub-micrometric particle physicochemical characteristics using spectral imaging-aided laser-induced breakdown spectroscopy coupled with a scanning mobility particle sizer. Spectrochim Acta Part B 64:1141–1152CrossRef

Baron PA, Maynard AD, Foley M (2003) Evaluation of aerosol release during the handling of unrefined single walled carbon nanotube material. NIOSH DART-02-191 Rev 1.1

Carranza JE, Hahn DW (2002a) Plasma volume considerations for analysis of gaseous and aerosol samples using laser-induced breakdown spectroscopy. J Anal At Spectrom 17:1534–1539CrossRef

Carranza JE, Hahn DW (2002b) Assessment of the upper particle size limit for quantitative analysis of aerosols using laser-induced breakdown spectroscopy. Anal Chem 74:5450–5454CrossRef

Carranza JE, Fisher BT, Yoder GD, Hahn DW (2001) On-line analysis of ambient air aerosols using laser-induced breakdown spectroscopy. Spectrochim Acta Part B 56:851–864CrossRef

Chen WX, Tu JP, Wang LY, Gan HY, Xu ZD, Zhang XB (2003) Tribological application of carbon nanotubes in a metal-based composite coating and composites 41:215–222

Cremers DA, Radziemski LJ (2006) History and fundamentals of LIBS. In: Miziolek AW, Palleschi V, Schechter I (eds) Laser-induced breakdown spectroscopy, fundamentals and applications. Cambridge University Press, Cambridge, pp 1–39

Danafar F, Fakhru’l A, Salleh MAM, Biak DRA (2009) Fluidized bed catalytic chemical vapor deposition synthesis of carbon nanotubes—a review. Chem Eng J 155:37–48

Elgrabli D, Abella-Gallart S, Aguerre-Chariol O, Robidel F, Rogerieux F, Boczkowski J, Lacroix G (2007) Effect of BSA on carbon nanotube dispersion for in vivo and in vitro studies. Toxicol 1:266–278

Elgrabli D, Floriani M, Abella-Gallart S, Meunier L, Gamez C, Delalain P, Rogerieux F, Boczkowski J, Lacroix G (2008) Biodistribution and clearance of instilled carbon nanotubes in rat lung. Part Fibre Toxicol 5:20CrossRef

Hahn DW, Lunden MM (2000) Detection and analysis of aerosol particles by laser-induced breakdown spectroscopy. Aerosol Sci Technol 33:30–48CrossRef

Hahn DW, Flower WL, Hencken KR (1997) Discrete particle detection and metal emissions monitoring using laser-induced breakdown spectroscopy. Appl Spectrosc 51:1836–1844CrossRef

James O, Hornkohl JO, Parigger C, Lewis JWL (1991) Temperature measurements from CN spectra in a laser-induced plasma. J Quant Spectrosc Radiat Transf 46:405–411CrossRef

Kim M, Park Y-B, Okoli OI, Zhang C (2009) Processing, characterization, and modeling of carbon nanotube-reinforced multiscale composites. Compos Sci Technol 69:335–342CrossRef

Knowles PJ, Werner HJ, Hay PJ, Cartwright DC (1988) A² Π – X² Σ⁺ red and B² Σ⁺ – X² Σ⁺ violet systems of the CN radical: accurate multireference configuration interaction calculations of the radiative transition probabilities. J Chem Phys 89:7334–7343CrossRef

Lyyränen J, Backman U, Tapper U, Auvinen A, Jokiniemi J (2009) A size selective nanoparticle collection device based on diffusion and thermophoresis. J Phys (Conf Ser) 170:012011CrossRef

Ma-Hock L, Treumann StraussV, Brill S, Luizi F, Mertler M, Wiench K, Gamer AO, Van Ravenzwaay B, Landsiedel R (2009) Inhalation toxicity of multiwall carbon nanotubes in rats exposed for 3 months. Toxicol Sci 112:468–481CrossRef

Mark D (2007) Occupational exposure to nanoparticles and nanotubes. In: Hester RE, Harrison RM (eds) Nanotechnology: consequences for human health and the environment. The Royal Society of Chemistry, Cambridge, pp 50–80

Meissner T, Potthoff A, Richter V (2008) Suspension characterization as important for toxicological investigations. J Phys Conf Ser 170:012012CrossRef

Monthioux M, Kuznetov VL (2006) Who should be given the credit for the discovery of carbon nanotubes? Carbon 44:1621–1623CrossRef

Mukherjee D, Rai A, Zachariah MR (2006) Quantitative laser-induced breakdown spectroscopy for aerosols via internal calibration: application to the oxidative coating of aluminum nanoparticles. J Aerosol Sci 37:677–695CrossRef

Muller J, Huaux F, Lison D (2006) Respiratory toxicity of carbon nanotubes: how worried should we be? Carbon 44:1048–1056CrossRef

Paradise M, Goswami T (2007) Carbon nanotubes—production and industrial applications. Mater Des 28:1477–1489CrossRef

Radziemski LJ, Loree TR, Cremers DA, Hoffman NM (1983) Time-resolved laser-induced breakdown spectrometry of aerosols. Anal Chem 55:1246–1252CrossRef

Rosen B (1970) Données spectroscopiques relatives aux molecules diatomiques (Spectroscopic data related to diatomic molecules). Pergamon, Oxford

Titel: Analysis of particle release using LIBS (laser-induced breakdown spectroscopy) and TEM (transmission electron microscopy) samplers when handling CNT (carbon nanotube) powders
verfasst von: B. R’mili
C. Dutouquet
J. B. Sirven
O. Aguerre-Chariol
E. Frejafon
Publikationsdatum: 01.02.2011
Verlag: Springer Netherlands
Erschienen in: Journal of Nanoparticle Research / Ausgabe 2/2011
Print ISSN: 1388-0764
Elektronische ISSN: 1572-896X
DOI: https://doi.org/10.1007/s11051-010-0050-z

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