1. | J. S. Murday, "The Coming Revolution: Science and Technology of Nanoscale Structures," The AMPTIAC Newsletter 6 (2002): 510. | 2. | A. M. Thayer, "Nanomaterials," Chemical and Engineering News 81 (2003): 1522. | 3. | M. Oswald and K. Deller, "Nanotechnology in Large Scale: Pyrogenic OxidesReady for New," Elements, Degussa Science Newsletter 9 (2004): 1620. | 4. | B. O'Regan and M. Grätzel, "A Low-Cost, High-Efficiency Solar-Cell Based on Dye-Sensitized Colloidal TiO2 Films," Nature 353 (1991): 737740. | 5. | http://www.sta.com.au/index.htm. | 6. | R. K. Singh and R. Bajaj, "Advances in Chemical Mechanical Planarization," MRS Bulletin 27 (2002): 743751. | 7. | A. P. Alivisatos, "The Use of Nanocrystals in Biological Detection," Nature Biotech 22 (2004): 4752. | 8. | http://www.innovalight.com/. | 9. | Q. Fu, H. Saltsburg, and M. Flytzani-Stephanopoulos, "Active nonmetallic Au and Pt species on ceria-based water-gas shift catalysts," Science 301 (2003): 935938; and Q. Fu, W. L. Deng, H. Saltsburg, and M. Flytzani-Stephanopoulos, "Activity and stability of low-content gold-cerium oxide catalysts for the water-gas shift reaction," Applied Catalysis BEnvironmental 56 (2005): 5768. | 10. | S. Mornet, S. Vasseur, F. Grasset, and E. Duguet, "Magnetic nanoparticle design for medical diagnosis and therapy," Journal of Materials Chemistry 14 (2004): 21612174. | 11. | A. M. Morawski, G. A. Lanza, and S. A. Wickline, "Targeted contrast agents for magnetic resonance imaging and ultrasound," Current Opinion in Biotechnology 16 (2005): 8992. | 12. | http://www.nanophase.com/technology/family.asp. | 13. | R. Weiss, "For Science, Nanotech Poses Big Unknowns," Washington Post, February 1, 2004. | 14. | D. W. Dockery, C. A. Pope, X. P. Xu, J. D. Spengler, J. H. Ware, M. E. Fay, B. G. Ferris, and F. E. Speizer, "An Association between Air-Pollution and Mortality in 6 United States Cities," New England Journal of Medicine 329 (1993): 17531759. |
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