Effect of organic matter on cyanide removal by illuminated titanium dioxide or zinc oxide nanoparticles

BACKGROUND: Cyanide is a toxic compound used in gold mining, steel, electroplating and chemical industries. In this research, different mole ratios of Fe 3+ /ZnO supported on powder activated carbon (PAC) in the presence of H 2 O 2 under UV irradiation were used to degrade cyanide contamination. The photocatalyst was characterized by XRD, XRF, FESEM, TEM and BET and response surface methodology was applied to assess the individual and interaction effects of several operating factors on cyanide degradation efficiency and to determine the optimization conditions. RESULTS: The results indicated that the average particle size of catalyst ranged from 20 to 60 nm. pH had the largest effect on response and there was interaction between initial cyanide concentration and pH. Decreasing the initial cyanide concentration and pH, while increasing the catalyst dosage, hydrogen peroxide concentration and irradiation time improved the cyanide degradation efficiency. The experimental result of cyanide degradation efficiency under optimum conditions ([CN] − = 250 mg L −1 , photocatalyst = 1.4 g L −1 , irradiation time = 180 min, pH=10, mole ratio of Fe 3+ /ZnO=6% and [H 2 O 2 ] = 300 mg L −1 ) was about 98%. Photocatalytic activity was maintained even after seven successive cycles. CONCLUSION: The synthesized reusable high activity nanostructure photocatalyst can be considered an applicable and environmentally friendly catalyst for the decontamination of cyanide-polluted water. CharacterizationDifferent analyses were applied to characterize the synthesized nanocatalyst. An X-ray diffraction (XRD) (BrukerD-8 Advance, Germany), was applied to determine the crystalline phase. X-ray fluorescence (XRF) was used to determine the chemical composition and structure of the chemical compounds (Bruker J Chem Technol Biotechnol 2017; 92: 2360-2368

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“…Similar results on the effect of individual factors on the cyanide degradation factors have been reported …”

Section: Resultssupporting

confidence: 86%

Performance enhancement and optimization of photocatalytic cyanide degradation in aqueous solution using Zn (II) and Fe (III) oxides as nanostructure supported on activated carbon

Eskandari

Farhadian

SolaimanyNazar

2017

J of Chemical Tech & Biotech

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“…Similarly, the removal efficiency of cyanide with ZnO photocatalytic oxidation greatly decreased in the presence of organic compounds (e.g. humic acid, oxalate, EDTA, NTA, phenol) due to the competitive oxidation [26]. To the best of our knowledge, the influence of EDTA and pyrophosphate on the H 2 O 2 oxidation of cyanides has not been reported up to date.…”

Section: àmentioning

confidence: 85%

Enhanced destruction of Cu(CN)32− by H2O2 under alkaline conditions in the presence of EDTA/pyrophosphate

Chen

Zhao

Liu

et al. 2014

Chemical Engineering Journal

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“…Nanoporous crystalline materials of carbon-and sulfur-doped TiO 2 were prepared at room temperature using a sonochemical method (Lee et al 2013). Anionic sulfur doping was demonstrated by XPS.…”

Section: Carbon-doped Titanium Dioxide Materialsmentioning

confidence: 99%

“…It has been postulated that the improved photoactivity of carbon doped TiO 2 materials is a result of the combination of several modifications induced by carbon doping, such as: formation of color centers (including Ti 3+ centers and defects associated with oxygen vacancies that give rise to color centers displaying visible light absorption bands), the introduction of several localized occupied states in the gap, and the higher surface area of the doped materials (Teh and Mohamed 2011). Synthesis of carbon-doped and carbon-co-doped (N, S, F) materials has been conducted via many routes, including simple mixing of a carbon precursor with TiO 2 (Lettmann et al 2001;Lee et al 2013), sol-gel synthesis (Park et al 2009, direct oxidation of Ti metal in a burner flame (Khan et al 2002), hydrothermal synthesis (Dolat et al 2012, and deposition techniques such as MW plasma oxidation, reactive magnetron sputtering, physical vapor deposition (PVD), chemical vapor deposition (CVD) (Dang et al 2012;Hsu et al 2007), and electrophoretic deposition (Macak et al 2007), among others.…”

Section: Carbon-doped Titanium Dioxide Materialsmentioning

confidence: 99%

Photocatalytic Semiconductors

2015

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Effect of organic matter on cyanide removal by illuminated titanium dioxide or zinc oxide nanoparticles

Cited by 39 publications

References 26 publications

Performance enhancement and optimization of photocatalytic cyanide degradation in aqueous solution using Zn (II) and Fe (III) oxides as nanostructure supported on activated carbon

Performance enhancement and optimization of photocatalytic cyanide degradation in aqueous solution using Zn (II) and Fe (III) oxides as nanostructure supported on activated carbon

Enhanced destruction of Cu(CN)32− by H2O2 under alkaline conditions in the presence of EDTA/pyrophosphate

Photocatalytic Semiconductors

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