References
- Biksey TM, Schultz AC, Bernhardt AM, et al (2009). Ecological and human health risk assessment. Water Environ Res 81:2170–210
- Brumfil G. (2003). Nanotechnology: a little knowledge. Nature 424:246–8
- Contreras EQ, Cho M, Zhu H, et al (2013). Toxicity of quantum dots and cadmium salt to Caenorhabditis elegans after multigenerational exposure. Environ Sci Technol 47:1148–54
- Fujihara J, Tongu M, Hashimoto H, et al (2015). Distribution and toxicity evaluation of ZnO dispersion nanoparticles in single intravenously exposed mice. J Med Invest 62:45–50
- Gomes SI, Scott-Fordsmand JJ, Amorim MJ. (2015). Cellular energy allocation to assess the impact of nanomaterials on soil invertebrates (Enchytraeids): the effect of Cu and Ag. Int J Environ Res Public Health 12:6858–78
- Gurunathan K, Murugan AV, Marimuthu R, et al (1999). Electrochemically synthesised conducting polymeric materials for applications towards technology in electronics, optoelectronics and energy storage devices. Mater Chem Phys 61:173–91
- Hansen SF. 2010. A global view of regulations affecting nanomaterials. Wiley Interdiscip Rev Nanomed Nanobiotechnol Nanomed 2:441–9
- Hossain ST, Mukherjee SK. (2013). Toxicity of cadmium sulfide (CdS) nanoparticles against Escherichia coli and HeLa cells. J Hazard Mater 260:1073–82
- Kovacic P, Somanathan R. (2010). Biomechanisms of nanoparticles (toxicants, antioxidants and therapeutics): electron transfer and reactive oxygen species. J Nanosci Nanotechnol 10:7919–30
- Li KG, Chen JT, Bai SS, et al (2009). Intracellular oxidative stress and cadmium ions release induce cytotoxicity of unmodified cadmium sulfide quantum dots. Toxicol in Vitro 23:1007–13
- Li QZ, Hu XL, Bai YP, et al (2013). The oxidative damage and inflammatory response induced by lead sulfide nanoparticles in rat lung. Food Chem Toxicol 60:213–17
- Liu L, Wang L, Yin H, et al (2006). The Preparation and application of bismuth (III) ion-selective electrode based on nanoparticles of bismuth sulfide. Anal Lett 39:879–90
- Mann EE, Thompson LC, Shannahan JH, et al (2012). Changes in cardiopulmonary function induced by nanoparticles. Wiley Interdiscip Rev Nanomed Nanobiotechnol Nanomed 4:691–702
- Masclangloli T, Zhang WX. 2003. Environmental technologies at the nanoscale. Environ Sci Technol 37:102–8a
- Maynard AD. (2011). Don’t define nanomaterials. Nature 475:31
- Mohammadi F, Sadeghi L, Mohammadi A, et al (2015). The effects of Nano titanium dioxide (TiO2NPs) on lung tissue. Bratisl Lek Listy 116:363–7
- Nel A, Grainger D, Alvarez PJ, et al (2011). Nanotechnology environmental, health, and safety issues, nanotechnology research directions for societal needs in 2020. Amsterdam: Springer
- Puckett SD, Taylor E, Raimondo T, et al (2010). The relationship between the nanostructure of titanium surfaces and bacterial attachment. Biomaterials 31:706–13
- Roco MC, Mirkin CA, Hersam MC. (2011). Nanotechnology research directions for societal needs in 2020. J Nanoparticle Res 13:897–919
- Roulet A, Armand L, Dagouassat M, et al (2012). Intratracheally administered titanium dioxide or carbon black nanoparticles do not aggravate elastase-induced pulmonary emphysema in rats. BMC Pulm Med 12:38
- Savolainen K, Pylkkänen L, Norppa H, et al (2010). Nanotechnologies, engineered nanomaterials and occupational health and safety – a review. Safety Sci 48:957–63
- Service RF. (2003). American chemical society meeting. Nanomaterials show signs of toxicity. Science 300:243
- Shvedova AA, Kisin ER, Porter D, et al (2009). Mechanisms of pulmonary toxicity and medical applications of carbon nanotubes: two faces of Janus? Pharmacol Therap 121:192–204
- Song W, Zhang J, Zhang J. (2010). Acute toxicity of different sized ZnO nanoparticles in mice after intratracheal administration. 2010 4th International Conference on IEEE; Chengdu, China, 1–4
- Suttiponparnit K, Jiang J, Sahu M et al (2011). Role of surface area, primary particle size, and crystal phase on titanium dioxide nanoparticle dispersion properties. Nanoscale Res Lett 6:27
- Thomas SP, Al-Mutairi EM, De SK. (2012). Impact of nanomaterials on health and environment. Arab J Sci Eng 38:457–77
- Tsuji JS, Maynard AD, Howard PC, et al (2006). Research strategies for safety evaluation of nanomaterials, part IV: risk assessment of nanoparticles. Toxicol Sci 89:42–50
- Winnik FM, Maysinger D. (2013). Quantum dot cytotoxicity and ways to reduce it. Acc Chem Res Chem 46:672–80
- Yan YZ, Su ZM, Wu L. (2013). Research on mechanical properties of nano-concrete. Adv Mat Res 628:50–4
- Yang H, Liu C, Yang D, et al (2009). Comparative study of cytotoxicity, oxidative stress and genotoxicity induced by four typical nanomaterials: the role of particle size, shape and composition. J Appl Toxicol 29:69–78
- Yu QY, Fang SM, Zuo WD, et al (2011). Effect of organophosphate phoxim exposure on certain oxidative stress biomarkers in the silkworm. J Econ Entomol 104:101–6
- Zhang Y, Meng D, Wang Z, et al (2012). Oxidative stress response in two representative bacteria exposed to atrazine. FEMS Microbiol Lett 334:95–101