Nanomaterials |
General Description of Carrier System |
Carrier System (i.e. Solid Matrix) |
References |
Carbon Nanotubes |
Thermoset polymer |
Epoxy resin layer laminate (1-4 layers thick) |
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Carbon Nanotubes |
Thermoset polymer |
Alumina fiber cloth with epoxy (1-4 layers thick) |
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Carbon Black |
Proprietary coating on medium density fiberboard |
Danish paint industry supplied medium density fiberboard plates coated with indoor paint; a reference (no NM) and paint doped with 95nm carbon black were compared |
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Titania |
Proprietary coating on medium density fiberboard |
Danish paint industry supplied medium density fiberboard plates coated with indoor paint; a reference (no NM) and paint doped with 17nm TiO2: were compared |
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Zinc Oxide |
Thermoplastic coating on steel plate |
Two-pack polyurethane coating w/ up to 6% n-ZnO on steel plate |
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Zinc Oxide |
Thermoplastic coating on fiberboard |
Two-pack polyurethane coating w/ up to 6% n-ZnO on oak veneer fiberboard |
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Zinc Oxide |
Thermoset coating on fiberboard |
UV clear coat w/ up to 3% ZnO on oak veneer fiberboard |
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Zinc Oxide |
Proprietary coating on cement fiber board |
white pigmented architectural coating w/ up to 5% n-ZnO on fiber cement boards |
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Zinc Oxide |
Thermoplastic coating on steel plate |
Two-pack polyurethane coating w/ up to 6% n-ZnO on steel plate |
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Zinc Oxide |
Thermoplastic coating on fiberboard |
Two-pack polyurethane coating w/ up to 6% n-ZnO on oak veneer fiberboard |
|
Zinc Oxide |
Thermoset coating on fiberboard |
UV clear coat w/ up to 3% ZnO on oak veneer fiberboard |
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Zinc Oxide |
Proprietary coating on cement fiber board |
White pigmented architectural coating w/ up to 5% n-ZnO on fiber cement boards |
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Iron Oxide |
Proprietary coating on fiber cement plate |
White pigmented architectural coating doped with n-Fe2O3 particles (only 25% of which were <100nm) on fiber cement plate |
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Reference Links
- Bello, D., B. Wardle, N. Yamamoto, R. deVilloria, E. Garcia, A. Hart, K. Ahn, M. Ellenbecker and M. Hallock (2009) Exposure to nanoscale particles and fiber during machining of hybrid advanced composites containing carbon nanotubes. Journal of Nanoparticle Research. 11: 231-249.
- Göhler, D., M. Stintz, L. Hillemann and M. Vorbau (2010) Characterization of nanoparticle release from surface coatings by the simulation of a sanding process. Annals of Occupational Hygiene. 54(6): 615-624.
- Koponen, I., K. Jensen and T. Schneider (2009) Sanding dust from nanoparticles-containing paints: physical characterization. Journal of Physics, Conference Series (Inhaled Particles X). 151: 1-9.
- Vorbau, M. L. Hillemann and M. Stintz (2009) Method for the characterization of the abrasion induced nanoparticles release into air from surface coatings. Aerosol Science. 40: 209-217.
Additional study details are available for download here. [Excel file] |