Aggregation and Dissolution of 4 nm ZnO Nanoparticles in Aqueous Environments: Influence of pH, Ionic Strength, Size, and Adsorption of Humic Acid

Bian, Shao‐Wei; Mudunkotuwa, Imali A.; Rupasinghe, Thilini P.; Grassian, Vicki H.

doi:10.1021/la200570n

Cited by 825 publications

(654 citation statements)

References 59 publications

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“…15 This amorphous Zn(OH) 2 was slightly soluble and Zn 2+ ions were released into solution. 12 Aqueous PO 4 3− can be adsorbed on the hydroxylation surface via exchange with OH − , forming an amorphous Zn phosphate layer. At the same time, dissolved Zn 2+ was complexed with aqueous PO 4 3− , resulting in the formation of amorphous zinc phosphate hydrate precipitate, which was then crystallized along with grain growth.…”

Section: ■ Materials and Methodsmentioning

confidence: 99%

Dissolution and Microstructural Transformation of ZnO Nanoparticles under the Influence of Phosphate

Zhang

Luo

et al. 2012

Environ. Sci. Technol.

179

140

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ABSTRACT:The toxicity and fate of nanoparticles (NPs) have been reported to be highly dependent on the chemistry of the medium, and the effects of phosphate have tended to be ignored despite the wide existence of phosphate contamination in aqueous environments. In the present study the influence of phosphate on the dissolution and microstructural transformation of ZnO NPs was investigated. Phosphate at a low concentration rapidly and substantially reduced the release of Zn 2+ into aqueous solution. Synchrotron X-ray absorption spectroscopy and X-ray diffraction analysis reveal that interaction between ZnO NPs and phosphate induced the transformation of ZnO into zinc phosphate. Transmission electronic microscopy observation shows that the morphology of the particles changed from structurally uniform nanosized spherical to anomalous and porous material containing mixed amorphous and crystalline phases of ZnO and zinc phosphate in the presence of phosphate. To our knowledge, this is the first study in which the detailed process of phosphate-induced speciation and microstructural transformation of ZnO NPs has been analyzed. In view of the wide existence of phosphate contamination in water and its strong metal-complexation capability, phosphate-induced transformations may play an important role in the behaviors, fate, and toxicity of many other metal-based nanomaterials in the environment.

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Section: ■ Materials and Methodsmentioning

confidence: 99%

Dissolution and Microstructural Transformation of ZnO Nanoparticles under the Influence of Phosphate

Zhang

Luo

et al. 2012

Environ. Sci. Technol.

179

140

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“…For example, the presence of a particle coating can influence solubility and mask size‐related changes in dissolution 73. Bian et al 76. studied the size dependency in the dissolution of ZnO ENPs by using three different particle sizes (4, 15, and 241 nm).…”

Section: The Influence Of the Dissolved Fraction On The Aquatic Toximentioning

confidence: 99%

Aquatic Ecotoxicity Testing of Nanoparticles—The Quest To Disclose Nanoparticle Effects

et al. 2016

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The number of products on the market containing engineered nanoparticles (ENPs) has increased significantly, and concerns have been raised regarding their ecotoxicological effects. Environmental safety assessments as well as relevant and reliable ecotoxicological data are required for the safe and sustainable use of ENPs. Although the number of publications on the ecotoxicological effects and uptake of ENPs is rapidly expanding, the applicability of the reported data for hazard assessment is questionable. A major knowledge gap is whether nanoparticle effects occur when test organisms are exposed to ENPs in aquatic test systems. Filling this gap is not straightforward, because of the broad range of ENPs and the different behavior of ENPs compared to “ordinary” (dissolved) chemicals in the ecotoxicity test systems. The risk of generating false negatives, and false positives, in the currently used tests is high, and in most cases difficult to assess. This Review outlines some of the pitfalls in the aquatic toxicity testing of ENPs which may lead to misinterpretation of test results. Response types are also proposed to reveal potential nanoparticle effects in the aquatic test organisms.

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“…Consequently, NaOH, urea, and H2O were present in the hydrogel pores. After the hydrogel was immersed in the ethanol solution of zinc acetate, the NaOH and zinc acetate reacted as follows (Bian et al 2011;Sun et al 2012). 2-led to the nucleation and growth of ZnO nanoparticles.…”

Section: Sem Of Flower-like Zno and Its Formation Mechanismmentioning

confidence: 99%

Preparation of Flower-like ZnO Nanoparticles in a Cellulose Hydrogel Microreactor

Qin

Jiang

et al. 2017

BioResources

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*Flower-like zinc oxide (ZnO) nanoparticles were synthesized with sodium hydroxide and zinc acetate in a cellulose hydrogel microreactor (prepared by the inversion method). The samples were characterized by scanning electron microscopy, EDX, x-ray diffractometry, ultravioletvisible diffuse reflection spectroscopy, and nitrogen adsorptiondesorption. The results indicated that ZnO grows in a flower-like shape in the pores of the cellulose hydrogel. The pure hexagonal wurtzite structures have uniform diameters in the range of 10 nm to 30 nm, surface areas of 39.18 m 2 /g, and pore volumes of 0.2109 cm 3 /g. This study also investigated the photocatalytic properties. The nanoparticles have a band gap of 3.23 eV and a 95.2% efficiency for the ultraviolet degradation of rhodamine B over 3 h at room temperature.

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Aggregation and Dissolution of 4 nm ZnO Nanoparticles in Aqueous Environments: Influence of pH, Ionic Strength, Size, and Adsorption of Humic Acid

Cited by 825 publications

References 59 publications

Dissolution and Microstructural Transformation of ZnO Nanoparticles under the Influence of Phosphate

Dissolution and Microstructural Transformation of ZnO Nanoparticles under the Influence of Phosphate

Aquatic Ecotoxicity Testing of Nanoparticles—The Quest To Disclose Nanoparticle Effects

Preparation of Flower-like ZnO Nanoparticles in a Cellulose Hydrogel Microreactor

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