F

References

IMPORTANT NOTE ABOUT INTERNET WEBSITES

The Internet information provided in this Summary was correct, to the best of our knowledge, at the time of publication. It is important to remember, however, the dynamic nature of the Internet. Information on websites can be transient and is not always validated or verifiable. Resources that are free and publicly available one day may require a fee or restrict access the next, and the location of items may change as menus and homepages are reorganized.

Alvarez, P.J.J. 2010. Nano-Sized Particles in the Environment: Fate, Transport and Potential Impacts to Ecosystem Health. Presentation at the Workshop-Challenges in Characterizing Small Particles, October 25, 2010, Washington, DC [online]. Available: http://dels.nas.edu/resources/static-assets/bcst/miscellaneous/alvarez.pdf [accessed Dec. 5, 2011].

Alvarez, P.J.J., V. Colvin, J. Lead, and V. Stone. 2009. Research priorities to advance eco-responsible nanotechnology. ACS Nano 3(7):1616-1619.

Armandroff, T., J. Berger, P. Butler, B.J. Finlayson-Pitts, I. Johnstone, M. Norman, E. Reichmanis, F. Roberts, T. Carruthers, and Z. 2011. A White Paper on Climate, Atmospheric Processes and Air Quality: Providing Fundamental Insights and Tools for the Next Advances through the Mathematical and Physical Sciences, May 18, 2011. National Science Foundation [online]. Available: http://www.nsf.gov/attachments/122032/public/MPSAC_Climate_Change_White_Paper.pdf [accessed Nov. 30, 2011].

Chongsiriwatana, N.P., J.A. Patch, A.M. Czyzewski, M.T. Dohm, A. Ivankin, D. Gidalevitz, R.N. Zuckermann, and A.E. Barron. 2008. Peptoids that mimic the structure, function, and mechanism of helical antimicrobial peptides. Proc. Natl. Acad. Sci. USA 105(8):2794-2799.

Chung, S.H, and A. Violi. 2007. Insights on the nanoparticle formation process in counterflow diffusion flames. Carbon 45(12):2400-2410.

Daulton, T.L., D.D. Eisenhour, T.J. Bernatowicz, R.S. Lewis, and P.R. Buseck. 1996. Genesis of presolar diamonds: Comparative high resolution transmission electron microscopy study of meteoric and terrestrial nano-diamonds. Geochim. Cosmochim. Acta 60 (23):4853-4872.

EPA (U.S. Environmental Protection Agency). 2010. Our Nation’s Air: Status and Trends through 2008 (EPA-454/R-09-002). Research Triangle Park.

Farmer, J.S., and C.T. Campbell. 2010. Ceria maintains smaller metal catalyst particles by strong metal-support bonding. Science 329(5994):933-936.

Fiedler, S.L., and A. Violi. 2010. Simulation of nanoparticle permeation through a lipid membrane. Biophys. J. 99(1):144-152.

Garboczi, E.J., K.A. Snyder, J.F. Douglas, and M.F. Thorpe. 1995. Geometrical percolation threshold of overlapping ellipsoids. Phys. Rev. E 52(1):819-828.

Ghan, S.J., and S.E. Schwartz. 2007. Aerosol properties and processes: A path from field and laboratory measurements to global climate models. Bull. Amer. Meteor. Soc. 88(7):1059-1083.

Ghosal, S., J.C. Hemminger, H. Bluhm, B.S. Mun, E.L.D. Hebenstreit, G. Ketteler, D.F. Ogletree, F.G. Requejo, and M. Salmeron. 2005. Electron spectroscopy of aqueous solution interfaces reveals surface enhancement of halides. Science 307(5709):563-566.

Gontard, L.C., L.Y. Chang, C.J. Hetherington, A.I. Kirkland, D. Ozkaya, and R.E. Dunin-Borkowski. 2007. Aberration-corrected imaging of active sites on industrial catalyst nanoparticles. Angew. Chem. Int. Ed. 46(20):3683-3685.

Grassian, V. 2010. From Mineral Dust to Nanoparticles: Challenges in Understanding Surface Chemistry, Transformations and Global Impacts of Small Particles. Presentation at the Workshop-Challenges in Characterizing Small Particles, October 25, 2010, Washington, DC.

Greeley, J., I.E.L. Stephens, A.S. Bondarenko, T.P. Johansson, H.A. Hansen, T.F. Jaramillo, J. Rossmeisl, I. Chorkendorff, and J.K. Nørskov. 2009. Alloys of platinum and early transition metals as oxygen reduction electrocatalysts. Nat. Chem. 1(7):552-556.

Hanssen, E., C. Knowechel, N. Klonis, N. Abu-Bakar, S. Deed, M. LeGros, M. Larabell, and L. Tilley. 2011. Cryo transmission X-ray imaging of the malaria parasite, P. falciparum. J. Struct. Biol. 173(1):161-168.

Hochella, M. 2010. Particles in the Soil and Water. Presentation at the Workshop-Challenges in Characterizing Small Particles, October 25, 2010, Washington, DC [online]. Available: http://dels.nas.edu/resources/static-assets/bcst/miscellaneous/Hochella.pdf [accessed Dec. 1, 2011].

Hochella, M.F., Jr., S.K. Lower, P.A. Maurice, R.L. Penn, N. Sahai, D.L. Sparks, and B.S. Twining. 2008. Nanominerals, mineral nanoparticles, and Earth systems. Science 319(5870):1631-1635.

Huang, W.J., R. Sun, J. Tao, L.D. Menard, R.G. Nuzzo, and J.M. Zuo. 2008. Coordination-dependent surface atomic contraction in nanocrystals revealed by coherent diffraction. Nat. Mater. 7(4):308-313.



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F References IMPORTANT NOTE ABOUT INTERNET WEBSITES Farmer, J.S., and C.T. Campbell. 2010. Ceria maintains smaller metal catalyst particles by strong metal-support bonding. Science 329(5994):933-936. The Internet information provided in this Summary was Fiedler, S.L., and A. Violi. 2010. Simulation of nanoparticle permeation through a lipid membrane. Biophys. J. 99(1):144-152. correct, to the best of our knowledge, at the time of publi- Garboczi, E.J., K.A. Snyder, J.F. Douglas, and M.F. Thorpe. 1995. Geo- cation. It is important to remember, however, the dynamic metrical percolation threshold of overlapping ellipsoids. Phys. Rev. E nature of the Internet. Information on websites can be tran- 52(1):819-828. sient and is not always validated or verifiable. Resources that Ghan, S.J., and S.E. Schwartz. 2007. Aerosol properties and processes: A are free and publicly available one day may require a fee or path from field and laboratory measurements to global climate models. Bull. Amer. Meteor. Soc. 88(7):1059-1083. restrict access the next, and the location of items may change Ghosal, S., J.C. Hemminger, H. Bluhm, B.S. Mun, E.L.D. Hebenstreit, G. as menus and homepages are reorganized. Ketteler, D.F. Ogletree, F.G. Requejo, and M. Salmeron. 2005. Electron spectroscopy of aqueous solution interfaces reveals surface enhance- Alvarez, P.J.J. 2010. Nano-Sized Particles in the Environment: Fate, Trans - ment of halides. Science 307(5709):563-566. port and Potential Impacts to Ecosystem Health. Presentation at the Gontard, L.C., L.Y. Chang, C.J. Hetherington, A.I. Kirkland, D. Ozkaya, Workshop-Challenges in Characterizing Small Particles, October 25, and R.E. Dunin-Borkowski. 2007. Aberration-corrected imaging of 2010, Washington, DC [online]. Available: http://dels.nas.edu/resources/ active sites on industrial catalyst nanoparticles. Angew. Chem. Int. Ed. static-assets/bcst/miscellaneous/alvarez.pdf [accessed Dec. 5, 2011]. 46(20):3683-3685. Alvarez, P.J.J., V. Colvin, J. Lead, and V. Stone. 2009. Research priorities Grassian, V. 2010. From Mineral Dust to Nanoparticles: Challenges in to advance eco-responsible nanotechnology. ACS Nano 3(7):1616-1619. Understanding Surface Chemistry, Transformations and Global Impacts Armandroff, T., J. Berger, P. Butler, B.J. Finlayson-Pitts, I. Johnstone, M. of Small Particles. Presentation at the Workshop-Challenges in Charac- Norman, E. Reichmanis, F. Roberts, T. Carruthers, and Z. Rosenzweig. terizing Small Particles, October 25, 2010, Washington, DC. 2011. A White Paper on Climate, Atmospheric Processes and Air Greeley, J., I.E.L. Stephens, A.S. Bondarenko, T.P. Johansson, H.A. Hansen, Quality: Providing Fundamental Insights and Tools for the Next T.F. Jaramillo, J. Rossmeisl, I. Chorkendorff , and J.K. Nørskov. 2009. Advances through the Mathematical and Physical Sciences, May 18, Alloys of platinum and early transition metals as oxygen reduction 2011. National Science Foundation [online]. Available: http://www. electrocatalysts. Nat. Chem. 1(7):552-556. nsf.gov/attachments/122032/public/MPSAC_Climate_Change_White_ Hanssen, E., C. Knowechel, N. Klonis, N. Abu-Bakar, S. Deed, M. LeGros, Paper.pdf [accessed Nov. 30, 2011]. M. Larabell, and L. Tilley. 2011. Cryo transmission X-ray imaging of Chongsiriwatana, N.P., J.A. Patch, A.M. Czyzewski, M.T. Dohm, A. the malaria parasite, P. falciparum. J. Struct. Biol. 173(1):161-168. Ivankin, D. Gidalevitz, R.N. Zuckermann, and A.E. Barron. 2008. Hochella, M. 2010. Particles in the Soil and Water. Presentation at the Peptoids that mimic the structure, function, and mechanism of helical Workshop-Challenges in Characterizing Small Particles, October 25, antimicrobial peptides. Proc. Natl. Acad. Sci. USA 105(8):2794-2799. 2010, Washington, DC [online]. Available: http://dels.nas.edu/resources/ Chung, S.H, and A. Violi. 2007. Insights on the nanoparticle formation static-assets/bcst/miscellaneous/Hochella.pdf [accessed Dec. 1, 2011]. process in counterflow diffusion flames. Carbon 45(12):2400-2410. Hochella, M.F., Jr., S.K. Lower, P.A. Maurice, R.L. Penn, N. Sahai, D.L. Daulton, T.L., D.D. Eisenhour, T.J. Bernatowicz, R.S. Lewis, and P.R. Sparks, and B.S. Twining. 2008. Nanominerals, mineral nanoparticles, Buseck. 1996. Genesis of presolar diamonds: Comparative high resolu - and Earth systems. Science 319(5870):1631-1635. tion transmission electron microscopy study of meteoric and terrestrial Huang, W.J., R. Sun, J. Tao, L.D. Menard, R.G. Nuzzo, and J.M. Zuo. 2008. nano-diamonds. Geochim. Cosmochim. Acta 60 (23):4853-4872. Coordination-dependent surface atomic contraction in nanocrystals EPA (U.S. Environmental Protection Agency). 2010. Our Nation’s Air: revealed by coherent diffraction. Nat. Mater. 7(4):308-313. Status and Trends through 2008 (EPA-454/R-09-002). Research Tri- angle Park. 83

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