References
- Avila AG, Hinestroza JP. 2008. Nanomaterials: Let's twist again. Nat Nano 3(8):458–459.
- Alexandrescu R, Borsella E, Botti S, Cesile MC, Martelli S. 1997. Synthesis of TiC and SiC/TiC nanocrystalline powders by gas-phase laser-induced reaction. J Mater Sci 32(21):5629–5635.
- Alfassi ZB. 2001a. Non-destructive elemental analysis. Chapter 7. Oxford, UK: Blackwell Science.
- Alfassi ZB. 2001b. Non-destructive elemental analysis. Chapter 10. Oxford, UK: Blackwell Science.
- Campbell JL. 2005. GUPIX and GUPIXWIN homepage [Internet]. Available from the website: http://pixe.physics.uoguelph.ca/gupix/main/.
- Deconninck G. 1973. Analyse des microquantités d'elements traces dans des substances solides par bombardement d'ions. J Radioanal Chem 17:29–43.
- Deconninck G. 1977. Trace elements analysis in liquids by proton induced x-ray emission. Nucl Inst Meth Phys 142(1–2):275–284.
- Demortier G. 1988. Application of nuclear microprobes to material of archaeological interest. Nucl Inst Meth Phys B 30(3):434–443.
- Galuszka J, Jarczyk L, Rokita E, Strzalkowski A, Sych M. 1984. The influence of target preparation and mode of irradiation on PIXE analysis of biological samples. Nucl Inst Meth Phys Res B 3(1–3):141–146.
- International Atomic Energy Agency (IAEA). 1989. Reference Materials Catalogue and Documents. Available from the website: http://curem.iaea.org/catalogue/TE/TE_001530000.html.
- International Atomic Energy Agency (IAEA). 1990. Reference Materials Catalogue and Documents. Available from the website: http://curem.iaea.org/catalogue/TE/TE_001550000.html.
- Johansson SAE, Campbell JL, Malmqvist KG. 1995. Particle-Induced X-Ray Emission Spectrometry (PIXE). New York: John Wiley and Sons Inc.
- Kreyling WG, Semmler M, Erbe F, Mayer P, Takenaka S, Schulz H, Oberdörster G, Ziesenis A. 2002. Translocation of ultrafine insoluble iridium particles from lung epithelium to extrapulmonary organs is size dependent but very low. J Toxicol Environ Health A 65(20):1513–1530.
- Linke R, Schreiner M, Demortier G. 2004. The application of photon, electron, and proton induced X-ray analysis for the identification and characterisation of medieval silver coins. Nucl Inst Meth Phys B 226 (1–2):172–178.
- Mayer M. 2008. SIMNRA homepage [Internet]. Available from the website: http://www.rzg.mpg.de/∼mam/.
- Mejia J, Tichelaar F, Saout C, Toussaint O, Masereel B, Mekhalif Z, Lucas S, Delhalle J. 2011. Effects of the dispersion methods in Pluronic F108 on the size and the surface composition of MWCNTs and their implications in toxicology assessment. J Nanopart Res 13(2):655–667.
- Nel A, Xia T, Mädler L, Li N. 2006. Toxic potential of materials at the nanolevel. Science 311(5761):622–627.
- Oberdörster G, Maynard A, Donaldson K, Castranova V, Fitzpatrick J, Ausman K, Carter J, Karn B, Kreyling W, Lai D, Olin S, Monteiro-Riviere N, Warheit D, Ynag H. 2005. Principles for characterizing the potential human health effects from exposure to nanomaterials: Elements of a screening strategy. Part Fibre Toxicol 2:8.
- Oberdörster G. 2001. Pulmonary effects of inhaled ultrafine particles. Int Arc Occup Environ Health 74(1):1–8.
- Semmler M, Seitz J, Erbe F, Mayer P, Heyder J, Oberdörster G, Kreyling WG. 2004. Long-term clearance kinetics of inhaled ultrafine insoluble iridium particles from the rat lung, including transient translocation into secondary organs. Inhal Toxicol 16(6–7):453–459.
- Semmler-Behnke M, Takenaka S, Fertsch S, Wenk A, Seitz J, Mayer P, Oberdöster G, Kreyling W. 2007. Efficient elimination of inhaled nanoparticles from the alveolar region: Evidence for interstitial uptake and subsequent reentrainment onto airways epithelium. Env Health Persp 115(5):728–733.
- Taylor TN. 1989. The surface composition of silicon carbide powders and whiskers: An XPS study. J Mater Res 4(1):189–203.
- Wang W, Zhang S, Chinwangso P, Advincula RC, Lee TR. 2009. Electric potential stability of SAMs on gold derived from bidentate and tridentate chelating alkanethiols. J Phys Chem C 113(9):3717–3725.