SEARCH

SEARCH BY CITATION

References

  • Adams, L. K., D. Y. Lyon, and P. J. J. Alvarez. 2006. Comparative eco-toxicity of nanoscale TiO2, SiO2 and ZnO water suspensions. Water Research 40(19): 35273532.
  • Ahmed, A. J. 2005. Therapeutics and excipients. Total Health 27(1): 5052.
  • Bansai, X., D. Rautaray, A. Ahmad, and M. Sastry. 2004. Synthesis of zirconia nanoparticles using the fungus Fusarium oxysporum. Journal of Materials Chemistry 14(22): 33033305.
  • Bhattacharaya, D. and R. K. Gupta. 2005. Nanotechnology and potential of microorganisms. Critical Reviews in Biotechnology 25(4): 199204.
  • Borm, P. J. A., D. Robbins, S. Haubold, T. Kuhlbusch, H. Fissan, K. Donaldson, R. Schins, et al. 2006. The potential risks of nanomaterials: A review carried out for ECETOC. Particle and Fibre Toxicity 3: 11.
  • Chang, E., N. Thekkek, W. W. Yu, V. L. Colvin, and R. Drezek. 2006. Evaluation of quantum dot cytotoxicity based on intracellular uptake. Small 2(12): 14121417.
  • Dahlheimer, S. P., C. R. Neal, and J. B. Fein. 2007. Potential mobilization of platinum-group elements by siderophores in surface environments. Environmental Science and Technology 41(3): 870875.
  • Derfus, A. M., W. C. W. Chan, and S. N. Bhatia. 2004. Probing the cytotoxicity of semiconductor quantum dots. Nano Letters 4(1): 1118.
  • Ding, L., J. Stilwell, T. Zhang, O. Elboudwarej, H. Jiang, and J. P. Selegue. 2005. Molecular characterization of the cytotoxic mechanism of multiwall carbon nanotubes and nano-onionson human skin fibroblast. Nano Letters 5(12): 24482464.
  • Duffin, R., C. L. Tran, A. Clouter, D. M. Brown, W. MacNee, V. Stone, and K. Donaldson. 2002. The importance of surface area and specific reactivity in the acute pulmonary inflammatory response to particles. Annals of Occupational Hygiene 46(2): 242245.
  • Dumortier, H., S. Lacotte, G. Pastorin, R. Marega, W. Wu, D. Bonifazi, J. P. Briand, M. Prato, S, Muller, and A. Bianco. 2006. Functionalized carbon nanotubes are non-cytotoxic and preserve the functionality of primary immune cells. Nano Letters 6(7): 15221528.
  • El-Toni, A. M., S. Yin, and T. Sato. 2006. Control of silica shell thickness and microporosity of titania-silica core-shell type nanoparticles to depress the photocatalytic activity of titania. Journal of Colloid and Interface Science 300(1): 123130.
  • Ek, K. H., G. M. Morrison, and S. Rauch. 2004. Environmental routes for platinum group elements to biological materials: A review. Science of the Total Environment 334–335(1): 3138.
  • Englander, O., D. Christensen, and L. Lin. 2005. Local synthesis of silicon nanowires and carbon nanotubes on microbridges. Applied Physics Letters 82(26): 47974799.
  • Fond, A. M. and G. J. Meyer. 2006. Biotoxicity of metal oxide nanoparticles. In Nanomaterials: Toxicity, health and environmental issues, edited by C. S. S. R.Kumar. Hoboken , NJ : Wiley.
  • Gardea-Toresdy, J. L., J. G. Parsons, E. Gomez, J. Peralta-Videa, H. E. Trojani, and P. Santiago. 2002. Formation and growth of Au particles in life alfalfa plants. Nano Letters 2(4): 397401.
  • Gericke, M. and A. Pinches. 2006. Biological synthesis of metal nanoparticles. Hydrometallurgy 83(1): 132140.
  • Gutsch, A., H. Mühlenweg, and M. Krämer. 2005. Tailor-made nanoparticles via gas-phase synthesis. Small 1(1): 3045.
  • Hardman, R. A. 2006. Toxicological review of quantum dots: Toxicity depends on physicochemical and environmental factors. Environmental Health Perspectives 114(2): 165172.
  • Hoet, P. H. M., I. Brüske-Hohlfeld, and O. V. Salata. 2004. Nanoparticles: Known and unknown health risks. Journal of Nanobiotechnology 2: 12.
  • Hong, R., T. Pan, J. Qian, and H. Li. 2006. Synthesis and surface modification of ZnO nanoparticles. Chemical Engineering Journal 119(1): 7181.
  • Hoshino, A., K. Fujioka, T. Oku, M. Suga, Y. Sasaki, and T. Ohta. 2004. Physicochemical properties and cellular toxicity of nanocrystal quantum dots depend on their surface modification. Nano Letters 4(11): 21632169.
  • Hsu, L. and H. Chein. 2007. Evaluation of nanoparticle emission for TiO2 nanopowder coating materials. Journal of Nanoparticle Research 9(1): 157163.
  • Huang, H. and X. Yang. 2004. Synthesis of chitosan stabilized gold nanoparticles in the absence/presence of tripolyphosphate. Biomacromolecules 5(6): 23402346.
  • Hussain, S. M., J. M. Hess, J. M. Gearhart, K. T. Geiss, and J. J. Schlager. 2005. In vitro toxicity of nanoparticles in BRL 3 A rat liver cells. Toxicology in Vitro 19(7): 975883.
  • Jiang, Y. and Y. Zhu. 2005. Microwave-assisted synthesis of sulfide M2S3 (M = Bi, Sb) nanorods using ionic liquid. Journal of Physical Chemistry B 109(10): 43614364.
  • Kagan, V. E., Y. Y. Tyurna, V. A. Tyurna, N. V. Konduru, A. N. Osipov, E. R. Kisin, D. Schwegler-Berry, R. Mercer, V. Castranova, and A. A. Shvedova. 2006. Direct and indirect effect of carbon nanotubes on RAW 264.7 nacrophages: Role of iron. Toxicology Letters 165(1): 88100.
  • Khanam, J. and A. Nanda. 2005. Flow of granules through cylindrical hopper. Powder Technology 150(1): 3035.
  • Kim, S. C., M. S. Harrington, and D. Y. H. Pui. 2007. Experimental study of nanoparticle penetration through commercial filter media. Journal of Nanoparticle Research 9(1): 117125.
  • Kinloch, I. A, C. Z. Chen, J. Howes, C. Boothroyd, C. Singh, and D. J. Fray. 2003. Electrolytic, TM and Raman studies on the production of carbon nanotubes in molten NaCl. Carbon 41(6): 11271141.
  • Kreyling, W., M. Semmler-Behnke, and W. Möller. 2006. Health implications of nanoparticles. Journal of Nanoparticle Research 8(1): 543562.
  • Lam, C., J. T. James, R. McCluskey, S. Arepalli, and R. L. Hunter. 2006. A review of carbon nanotube toxicity and assessment of potential occupational and environmental health risks. Critical Reviews in Toxicology 36(3): 189217.
  • Lee, H. J., S. Y. Yeo, and S. H. Jeong. 2003. Antibacterial effect of nanosized silver colloidal solution on textile fabrics. Journal of Materials Science 38(2): 199204.
  • Li, Q. Y., F. Chen, D. D. Zeng, W. M. Gao, and Z. J. Wu. 2005. Photocatalytic characterization of silica coated titania nanoparticles with tunable coatings. Journal of Nanoparticle Research 7(2–3): 295299.
  • Li, Z., Z. Liu, J. Zhang, B. Han, J. Du, Y. Gao, and T. Jiang. 2005. Synthesis of single-crystal gold nanosheets of large size in ionic liquids. Journal of Physical Chemistry B 109(30): 1444514448.
  • Lloyd, S. M., L. B. Lave, and S. Mathews. 2005. Life cycle benefits of using nanotechnology to stabilize platinum-group metal particles in automotive catalysts. Environmental Science and Technology 39(5): 13841392.
  • Magrez, A., S. Kasas, V. Sallicio, N. Pasquier, J. W. Seo, M. Celio, S. Catsicas, B. Schwaller, and L. Forro. 2006. Cellular toxicity of carbon-based nanomaterials. Nano Letters 6(6): 11211125.
  • Mandal, D., M. E. Bolander, D. Mukhopadhyay, G. Sarkar, and P. Mukherjee. 2005. The use of microorganisms for the formation of nanoparticles and their application. Applied Microbiology and Biotechnology 69(5): 485492.
  • Mao, C., D. J. Sols, B. D. Reiss, S. T. Kottman, R. Y. Sweeny, and A. Haynurst. 2004. Virus-based toolkit for the directed synthesis of magnetic and semiconducting nanowires. Science 303(2): 213217.
  • Martin-Banderas, L., M. Flores-Mosquera, P. Riesco-Chueca, A. Rodriguez-Gil, A. Cebolla, S. Chavez, and A. M. Ganan-Calvo. 2005. Flow-focusing: A versatile technology to produce size-controlled and specific-morphology microparticles. Small 1(7): 688692.
  • Matsuyama, K., K. Mishima, K. Hayashi, and H. Matsuyama. 2003. Microencapsulation of TiO2 nanoparticles with polymer by rapid expansion of supercritical solution. Journal of Nanoparticle Research 5(1): 8795.
  • Maynard, A. D. 2006. Nanotechnology: Assessing the risks. Nano Today 1(2): 2233.
  • Maynard, A. D. 2007. Nanotechnology: The next big thing, or much ado about nothing? Annals of Occupational Hygiene 51(1): 112.
  • Maynard, A. D. and E. D. Kuempel. 2005. Airborne nanostructured particles and occupational health. Journal of Nanoparticle Research 7(6): 587614.
  • Maynard, A. D., R. J. Aitken, T. Butz, V. Colvin, K. Donaldson, G. Oberdörster, M. A. Phibert, et al. 2006. Safe handling of nanotechnology. Nature 444(3): 267269.
  • Melechko, A. V., V. I. Merkulov, T. E. McKnight, M. A. Guillorn, K. L. Klein, and D. H. Lowndes. 2005. Vertically aligned carbon nanofibers and related structures: Controlled synthesis and directed assembly. Journal of Applied Physics 97: Art. No. 041301.
  • Merget, R. and G. Rosner. 2001. Evaluation of health risk of platinum group metals emitted from automotive catalytic converters. Science of the Total Environment 270(1): 163175.
  • Meyer, K. and I. Zimmermann. 2004. Effects of glidants in binary powder mixtures. Powder Technology 139(1): 4054.
  • Myers, M. L. 2006. Emerging technologies: Inherently safer designs. Professional Safety 51(10): 2026.
  • Oberdörster, G., E. Oberdörster, and J. Oberdörster. 2005. Nanotoxicology: An emerging discipline evolving from studies of ultrafine particles. Environmental Health Perspectives 113(7): 823839.
  • Ohta, K. M., M. Fuji, and M. Chikazawa. 2003. Effect of geometric structure of flow promoting agents on flow properties of pharmaceutical powder mixture. Pharmaceutical Research 20(5): 804809.
  • Ostiguy, C., G. Lapointe, L. Ménard, Y. Cloutier, M. Trottier, M. Noutin, M. Antoun, and C. Normand. 2006. Nanoparticles. Montreal , Canada : IRSST.
  • Overbeke, A. 2007. Transparant titaanwit [Transparent titanium-white]. [kM-Miniature] Winter: 2122.
  • Price, B. K., J. L. Hudson, and J. M. Tour. 2005. Green chemical functionalization of single walled carbon nanotubes in ionic liquids. Journal of the American Chemical Society 127(46): 1486714870.
  • Rao, C. N. R. 2005. Chemical routes to nanocrystals, nanowires and nanotubes. International Journal of Nanoscience 4(5–6): 811826.
  • Raveendran, P., J. Fu, and S. L. Wallen. 2003. Completely green synthesis and stabilization of metal nanoparticles. Journal of the American Chemical Society 125(46): 1394013941.
  • Raveendran, P., J. Fu, and S. L. Wallen. 2006. A simple and green method for the synthesis of Au, Ag and Au-Ag alloy nanoparticles. Green Chemistry 8(1): 3438.
  • Ravindra, K., L. Bencs, and R. Van Grieken. 2004. Platinum group elements in the environment and their health risk. Science of the Total Environment 318(1): 143.
  • Reijnders, L. 2006. Cleaner technology and hazard reduction of manufactured nanoparticles. Journal of Cleaner Production 14(2): 124135.
  • Reijnders, L. 2007. Biological effects of nanoparticles used as glidants in powders. Powder Technology 175(1): 142145.
  • Reijnders, L. 2008. Hazard reduction for the application of titania nanoparticles in environmental technology. Journal of Hazardous Materials 152(1) 440445.
  • Royal Society and Royal Academy of Engineering. 2004. Nanoscience and nanotechnologies: Opportunities and uncertainties.
  • Ryman-Rasmussen, J. P., J. E. Riviere, and N. A. Monteiro-Riviere. 2006. Penetration of intact skin by quantum dots with diverse physicochemical properties. Toxicological Sciences 91(1): 159165.
  • Sakai, T. and P. Alexandridis. 2005. Mechanism of gold metal ion reduction, nanoparticle growth and size control in aqueous amphiphilic block copolymer solutions at ambient conditions. Journal of Physical Chemistry B 109(16): 77667777.
  • Sayes, C. M., J. D. Fortner, W. Guo, D. Lyon, A. M. Boyd, and K. D. Ausman. 2004. The differential cytotoxicity of water soluble fullerenes. Nano Letters 4(10): 18811887.
  • Sayes, C. M., R. Wahi, P. A. Kurian, Y. Liu, J. L. West, and K. D. Ausman. 2006a. Correlating nanoscale titania structure with toxicity: A cytotoxicity and inflammatory response study with human dermal fibroblasts and human lung epithelial cells. Toxicological Sciences 92(1): 174185.
  • Sayes, C. M., F. Liang, .J. L. Hudson, J. Mendez, W. Guo, and J. M. Beach. 2006b. Functionalization density dependence of single-walled nanotubes cytotoxicity in vitro. Toxicology Letters 16(1): 135142.
  • Seager, T. and I. Linkov. 2008. Coupling multicriteria decision analysis and life cycle assessment for nanomaterials. Journal of Industrial Ecology 12(3).
  • Şengül, H., T. Theis, and S. Ghosh. 2008. Toward sustainable nanoproducts: An overview of nanomanufacturing methods. Journal of Industrial Ecology 12(3).
  • Shatkin, J. 2008. Informing environmental decision making by combining life cycle assessment and risk analysis. Journal of Industrial Ecology 12(3).
  • Shen, M., Y. Du, H. Kon, J. Li, and L. Jiang. 2005. Preparation of hydrophobic gold nanoparticles with safe organic solvents by microwave irradiation method. Colloids and Surfaces A, Physicochemical Engineering Aspects 257–258(1): 439443.
  • Sui, R., A. S. Rizkalla, and P. A. Charpentier. 2006. Direct synthesis of zirconia aerogel nanoarchitecture in supercritical CO2. Langmuir 22(19): 43904396.
  • Sun, X., S. Dong, and E. Wang. 2004. Large scale synthesis of micrometer-scale single crystalline Au plates of nanometer thickness by wet-chemical route. Angewandte Chemie International Edition 43(46): 63606363.
  • Suzuki, T., Y. Guo, S. Inoue, X. Zhao, M. Ohkochi, and Y. Ando. 2006. Multiwalled carbon nanotubes mass-produced by dc arc discharge in He-H2 gas mixture. Journal of Nanoparticle Research 8(2): 279285.
  • Sweet, L. and B. Strohm. 2006. Nanotechnology—life cycle risk management. Human and Ecological Risk Assessment 12(3): 528551.
  • Templeton, R. C., F. L. Ferguson, K. M. Washburn, W. A. Scrivens, and G. T. Chandler. 2006. Life-cycle effects of single walled carbon nanotubes (SWNTs) on an estuarine meiobenthic copepod. Environmental Science & Technology 40(23): 73877393.
  • Vayssieres, L., L. Rabenberg, and A. Manthirma. 2002. Aqueous chemical route to ferromagnetic 3-D arrays of iron nanorods. Nano Letters 2(12): 13931395.
  • Vivekchand, S. R. C., B. Jayakanth, A. Govindaraj, and C. N. R. Rao. 2005. The problem of purifying single-walled carbon nanotubes. Small 1(10): 920923.
  • Vonarbourg, A., C. Passirani, P. Saulnier, and J. Benoit. 2006. Parameters influencing the stealthiness of colloidal drug delivery systems. Biomaterials 27(24): 43564373.
  • Wakefield, G., M. Green, S. Lipscomb, and B. Flutter. 2004. Modified titania nanomaterials for sunscreen applications—reducing free radical generation and DNA damage. Materials Science and Technology 20(8): 985988.
  • Warheit, D. B., K. L. Reed, and T. R. Webb. 2003. Pulmonary toxicity studies in rats with triethoxyoctysilane (OTES)-coated, pigment grade titanium dioxide particles: Bridging studies to predict inhalation hazard. Experimental Lung Research 29(8): 593606.
  • Yan, Y., M. B. Chan-Park, and Q. Zhang. 2007. Advances in carbon-nanotube assembly. Small 3(1): 2442.