EFFECT OF PHENOL IN AQUEOUS SOLUTIONS ON TOXICITY OF NANO-TIO2 AND NANO-FE/TIO2 PARTICLES

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ZARE M.R.; NADDAFI K.

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Journal: JOURNAL OF SCHOOL OF PUBLIC HEALTH AND INSTITUTE OF PUBLIC HEALTH RESEARCH Year:2011 | Volume:8 | Issue:4 Page(s): 73-82

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Title

EFFECT OF PHENOL IN AQUEOUS SOLUTIONS ON TOXICITY OF NANO-TIO2 AND NANO-FE/TIO2 PARTICLES

Author(s)

ZARE M.R. | NADDAFI K. | Issue Writer Certificate

Keywords

NONOPARTICLESQ3

TITANIUM OXIDEQ2

PHENOLQ2

TOXICITYQ2

BIOASSAYQ2

Abstract

Background and Aim: Specific and unique characteristics of nanoparticles may entail specific and unique hazards. In addition, they may also exhibit TOXICITY under certain conditions. This study was conducted to investigate the TOXICITY of PHENOL-exposed and PHENOL-unexposed nano-TiO2 and nano-Fe/TiO2 particles.Materials and Methods: Stock solutions of the afore-mentioned nanoparticles were prepared at different concentrations and a sample of each was exposed to PHENOL. This was followed by exposing Daphnia Magna to the PHENOL- and non-phenol-exposed nanoparticles. LC50, NOEC and the concentrations at which mortality rates were 100% were determined 12 to 96 hours after exposure, while for the determination of the mortality rate of Daphnia the Probit model in SPSS version16 software was used.Results: The results revealed that (1). The 48-hr LC50 values for PHENOL-unexposed nano-TiO2 and nano-Fe/TiO2 particles were 2705 and over 15000 mg/m3, respectively. The corresponding values for the PHENOL-exposed samples were 414 and 1253. (2). The 48-hr NOEC values for the PHENOL-exposed TiO2 and FeTiO2 were 41 and 789, respectively, the corresponding values for unexposed samples being 1253 and over 15000 mg/m3. (3). In addition, the 48-hr 100% mortality rates for PHENOL-unexposed nano-TiO2 and nano-Fe/TiO2 particles were, respectively, 1253 and over 15000 mg/m3, while for the PHENOL-exposed samples the corresponding rates were 1090 and over 2108.Conclusion: With regard to 48-hr LC50, the findings show that the TOXICITY of both nano-Fe: TiO2 and TiO2 increases as a result of exposure to PHENOL, the increase being 12-fold for the former and 6.5-fold for the latter. In general, however, based on LC50, it can be said that the TOXICITY of Fe: TiO2 nanoparticles, which has better catalytic characteristics, is lower in comparison to TiO2 nanoparticles. Thus, using Fe: TiO2 in preference to pure TiO2 should be investigated further, as it will be less hazardous to the environment.

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APA: Copy

ZARE, M.R., & NADDAFI, K.. (2011). EFFECT OF PHENOL IN AQUEOUS SOLUTIONS ON TOXICITY OF NANO-TIO₂ AND NANO-FE/TIO₂ PARTICLES. JOURNAL OF SCHOOL OF PUBLIC HEALTH AND INSTITUTE OF PUBLIC HEALTH RESEARCH, 8(4), 73-82. SID. https://sid.ir/paper/85193/en

Vancouver: Copy

ZARE M.R., NADDAFI K.. EFFECT OF PHENOL IN AQUEOUS SOLUTIONS ON TOXICITY OF NANO-TIO₂ AND NANO-FE/TIO₂ PARTICLES. JOURNAL OF SCHOOL OF PUBLIC HEALTH AND INSTITUTE OF PUBLIC HEALTH RESEARCH[Internet]. 2011;8(4):73-82. Available from: https://sid.ir/paper/85193/en

IEEE: Copy

M.R. ZARE, and K. NADDAFI, “EFFECT OF PHENOL IN AQUEOUS SOLUTIONS ON TOXICITY OF NANO-TIO₂ AND NANO-FE/TIO₂ PARTICLES,” JOURNAL OF SCHOOL OF PUBLIC HEALTH AND INSTITUTE OF PUBLIC HEALTH RESEARCH, vol. 8, no. 4, pp. 73–82, 2011, [Online]. Available: https://sid.ir/paper/85193/en

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