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 NNI [no date]. Manufacturing at the nanoscale &#91;http://nano.gov/nanotech-101/what/manufacturing]. Date accessed: October 18, 2012.

Oberdörster G, Oberdörster E, Oberdörster J [2005]. Nanotoxicology: an emerging discipline evolving from studies of ultrafine particles. Environ Health Perspect 113:823–839.

OECD [2009]. No 11: emission assessment for identification of sources and release of airborne manufactured nanomaterials in the workplace: compilation of existing guidance. Paris: Organisation for Economic Co-operation and Development, ENV/JM/MONO (2009)16.

Paik SY, Zalk DM, Swuste P [2008]. Application of a pilot control banding tool for risk level assessment and control of nanoparticle exposures. Ann Occup Hyg 52(6):419–428.

Park J, Ramachandran G, Raynor P, Eberly L, Olson G [2010a]. Comparing exposure zones by different exposure metrics for nanoparticles using statistical parameters: contrast and precision. Ann Occup Hyg 54(7):799–812.

Park J, Ramachandran G, Raynor P, Olson G [2010b]. Determination of particle concentration rankings by spatial mapping of particle surface area, number, and mass concentrations in a restaurant and a die casting plant. J Occup Environ Hyg 7(8):466–476.

Park J, Ramachandran G, Raynor P, Kim S [2011]. Estimation of surface area concentration of workplace incidental nanoparticles based on number and mass concentrations. J Nanopart Res 13(10):4897–4911.

Peters TM, Elzey S, Johnson R, Park H, Grassian VH, Maher T, O’Shaughnessy P [2009]. Air-borne monitoring to distinguishing engineered nanomaterials from incidental particles for environmental health and safety. J Occup Environ Hyg 6:73–81.

Poland CA, Duffin R, Kinloch I, Maynard A, Wallace WAH, Seaton A, Stone V, Brown S, MacNee W, Donaldson K [2008]. Carbon nanotubes introduced into the abdominal cavity of mice show asbestos-like pathogenicity in a pilot study. Nat Nanotechnol 3:423–428.

Pui DYH [1996]. Direct-reading instrument for workplace aerosol measurements: a review. Analyst 121:1215–1224.

Ramachandran G [2005]. Occupational exposure assessment for air contaminants. Boca Raton, FL: CRC Press, p. 337.

Ramachandran G, Ostraat M, Evans D, Methner M, O’Shaughnessy P, D’Arcy J, Geraci C, Stevenson, Maynard A, Rickabough K [2011]. A strategy for assessing workplace exposures to nanomaterials. J Occup Environ Hyg 8:673–685.

Rengasamy S, Eimer BC [2011]. Total inward leakage of nanoparticles through filtering facepiece respirators. Ann Occup Hyg 55(3):253–263.

Rengasamy S, Eimer BC, Shaffer RE [2009]. Comparison of nanoparticle filtration performance of NIOSH-approved and CE-marked particulate filtering facepiece respirators. Ann Occup Hyg 53(2):117–128.

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