References
- Aggarwal P, Hall JB, McLeland CB, Dobrovolskaia MA, McNeil SE. 2009. Nanoparticle interaction with plasma proteins as it relates to particle biodistribution, biocompatibility and therapeutic efficacy. Adv Drug Deliv Rev 61:428–437.
- Allouni ZE, Cimpan MR, Hol PJ, Skodvin T, Gjerdet NR. 2009. Agglomeration and sedimentation of TiO2 nanoparticles in cell culture medium. Colloid Surf B 68:83–87.
- Aoki M, Ring TA, Haggerty JS. 1987. Analysis and modeling of the ultrasonic dispersion technique. Adv Ceram Mater 2:209–212.
- Basedow AM, Ebert KH. 1979. Effects of mechanical stress on the reactivity of polymers - activation of acid-hydrolysis of dextran by ultrasound. Polym Bull 1:299–306.
- Bihari P, Vippola M, Schultes S, Praetner M, Khandoga AG, Reichel CA, 2008. Optimized dispersion of nanoparticles for biological in vitro and in vivo studies. Part Fibre Toxicol 5:14.
- Contamine RF, Wilhelm AM, Berlan J, Delmas H. 1995. Power measurement in sonochemistry. Ultrason Sonochem 2:S43–S47.
- Evonik-Degussa 2010. Highly dispersed metallic oxides produced by the Aerosil process. Tech Bull 56.
- Hackley VA, Clogston JD. 2007. Measuring the size of nanoparticles in aqueous media using batch-mode dynamic light scattering. NIST - NCL joint assay protocol PCC-1. http://ncl.cancer.gov/working_assay-cascade.asp.
- Hotze EM, Bottero JY, Wiesner MR. 2010. Theoretical framework for nanoparticle reactivity as a function of Aggregation State. Langmuir 26:11170–11175.
- Ji ZX, Jin X, George S, Xia TA, Meng HA, Wang X, 2010. Dispersion and stability optimization of TiO(2) nanoparticles in cell culture media. Environ Sci Technol 44:7309–7314.
- Jiang JK, Oberdorster G, Biswas P. 2009. Characterization of size, surface charge, and agglomeration state of nanoparticle dispersions for toxicological studies. J Nanopart Res 11:77–89.
- Johnston HJ, Hutchison GR, Christensen FM, Peters S, Hankin S, Stone V. Identification of the mechanisms that drive the toxicity of TiO(2) particulates: the contribution of physicochemical characteristics. Part Fibre Toxicol 2009. 6: 33.
- Kawasaki H, Takeda Y, Arakawa R. 2007. Mass spectrometric analysis for high molecular weight synthetic polymers using ultrasonic degradation and the mechanism of degradation. Anal Chem 79:4182–4187.
- Kim SC, Chen DR, Qi CL, Gelein RM, Finkelstein JN, Elder A, 2010. A nanoparticle dispersion method for in vitro and in vivo nanotoxicity study. Nanotoxicology 4:42–51.
- Kimura T, Sakamoto T, Leveque JM, Sohmiya H, Fujita M, Ikeda S, 1996. Standardization of ultrasonic power for sonochemical reaction. Ultrason Sonochem 3:S157–S161.
- Kosmulski M. 2001. Chemical properties of material surfaces. New York: Marcel Dekker.
- Kosmulski M. 2002. The significance of the difference in the point of zero charge between rutile and anatase. Adv Colloid Interface Sci 99:255–264.
- Krysanov EY, Pavlov DS, Demidova TB, Dgebuadze YY. 2010. Effect of nanoparticles on aquatic organisms. Biol Bull 37:406–412.
- Kuempel ED, Ruder A. 2006. Titanium dioxide IARC review monograph 93. Int Agency Res Cancer.
- Lin DH, Tian XL, Wu FC, Xing BS. 2010. Fate and transport of engineered nanomaterials in the environment. J Environ Qual 39:1896–1908.
- Lundqvist M, Stigler J, Elia G, Lynch I, Cedervall T, Dawson KA. 2008. Nanoparticle size and surface properties determine the protein corona with possible implications for biological impacts. Proc Natl Acad Sci USA 105:14265–14270.
- MacCuspie RI, Allen AJ, Hackley VA. 2011. Dispersion stabilization of silver nanoparticles in synthetic lung fluid studied under in situ conditions. Nanotoxicology 5:140–156.
- Mason TJ. 1991. Practical sonochemistry: user's guide to applications in chemistry and chemical engineering. Ellis Horwood, Sussex, England.
- Naddeo V, Belgiorno V, Napoli RMA. 2007. Behaviour of natural organic mater during ultrasonic irradiation. Desalination 210:175–182.
- National Science and Technology Council. 2007. Prioritization of environmental, health and safety research needs for engineered nanoscale materials (An Interim Document for Public Comment). Nanotechnology Environmental and Health Implications Working Group.
- National Science and Technology Council. 2008. Strategy for nanotechnology-related environmental, health and safety research. National Science and Technology Council - National Nanotechnology Initiave. http://www.whitehouse.gov/administration/eop/ostp.
- NIST. 2012. SRM 1898 was in production as of the publication of this work, and targeted for release in 2011. http://www.nist.gov/srm/.
- OECD. 2008. List of manufactured nanomaterials and list of endpoints for phase one of the OECD's testing program, series on the safety of manufactured nanomaterials, Number 6. Paris, France: Environmental Diractorate, Organization for Economic Co-operation and Development.
- Pew. 2011. The project on emerging nanotechnologies. Woodrow Wilson International Center for Scholars and the Pew Charitable Trusts. http://www.nanotechproject.org/inventories/consumer/.
- Porter D, Sriram K, Wolfarth M, Jefferson A, Schwegler-Berry D, Andrew M, 2008. A biocompatible medium for nanoparticle dispersion. Nanotoxicology 2:144–154.
- Radziuk D, Grigoriev D, Zhang W, Su DS, Mohwald H, Shchukin D. 2010. Ultrasound-assisted fusion of preformed gold nanoparticles. J Phys Chem C 114:1835–1843.
- Robichaud CO, Uyar AE, Darby MR, Zucker LG, Wiesner M. R. 2009. Estimates of upper bounds and trends in Nano-TiO(2) production as a basis for exposure assessment. Environ Sci Technol 43:4227–4233.
- Sager TM, Porter DW, Robinson VA, Lindsley WG, Schwegler-Berry DE, Castranova V. 2007. Improved method to disperse nanoparticles for in vitro and in vivo investigation of toxicity. Nanotoxicology 1:118–129.
- Sass J. 2007. Nanotechnology's invisible threat: Small science, big consequences. Nat Resources Defense Counc. http://www.nrdc.org/health/science/nano/nano.pdf.
- Schulze C, Kroll A, Lehr CM, Schafer UF, Becker K, Schnekenburger J, 2008. Not ready to use - overcoming pitfalls when dispersing nanoparticles in physiological media. Nanotoxicology 2:51–U17.
- Taurozzi JS, Hackley VA, Wiesner MR. 2010. CEINT/NIST Protocol for the preparation of nanoparticle dispersions from powdered material using ultrasonic disruption. http://ceint.duke.edu/allprotocols.
- Taurozzi JS, Hackley VA, Wiesner MR. 2011a. CEINT/NIST Protocol for the preparation of a nanoscale TiO2 aqueous dispersion for toxicological or environmental testing. http://ceint.duke.edu/allprotocols.
- Taurozzi JS, Hackley VA, Wiesner MR. 2011b. CEINT/NIST Protocol for the preparation of nanoscale TiO2 dispersions in biological test media for toxicological assessment. http://ceint.duke.edu/allprotocols.
- Taurozzi JS, Hackley VA, Wiesner MR. 2011c. Ultrasonic dispersion of nanoparticles for environmental, health and safety assessment – Issues and recommendations. Nanotoxicology 5:711–729.
- Taylor BN, Kuyatt CE. 1994. Guidelines for Evaluating and Expressing the Uncertainty of NIST Measurement Results, NIST Technical Note 1297. National Institute of Standards and Technology, U. S. Department of Commerce. http://physics.nist.gov/Pubs/guidelines/TN1297/tn1297s.pdf.
- Tsai DH, DelRio FW, Keene AM, Tyner KM, MacCuspie RI, Cho TJ, 2011. Adsorption and conformation of serum albumin protein on gold nanoparticles investigated using dimensional measurements and in situ spectroscopic methods. Langmuir 27:2464–2477.
- U.S. Environmental Protection Agency, W., DC. 2010. U.S. EPA. Nanomaterial Case Studies: Nanoscale Titanium Dioxide in Water Treatment and in Topical Sunscreen (Final). EPA/600/R-09/057F.
- Vasylkiv O, Sakka Y. 2001. Synthesis and colloidal processing of zirconia nanopowder. J Am Ceram Soc 84:2489–2494.
- Warheit DB, Webb TR, Reed KL, Frerichs S, Sayes CM. 2007. Pulmonary toxicity study in rats with three forms of ultrafine-TiO2 particles: Differential responses related to surface properties. Toxicology 230:90–104.
- Yang XL, Wu JH, Liu W, Xue CB, Zhou SC, Lan FL, 2009. Toxicity and penetration of TiO(2) nanoparticles in hairless mice and porcine skin after subchronic dermal exposure. Toxicol Lett 191:1–8.
- Zhang Y, Chen YS, Westerhoff P, Crittenden J. 2009. Impact of natural organic matter and divalent cations on the stability of aqueous nanoparticles. Water Res 43:4249–4257.