J. E. Amonette scite author profile

The examination of nanoparticles allows study of some processes and mechanisms that are not as easily observed for films or other types of studies in which sample preparation artifacts have been the cause of some uncertainties. Microstructure of iron nanoparticles passivated with iron oxide shell was studied using high-resolution transmission electron microscopy and high-angle annular dark-field imaging in aberration-corrected scanning transmission electron microscopy. Voids were readily observed on both small single-crystal α-Fe nanoparticles formed in a sputtering process and the more complex particles created by reduction of an oxide by hydrogen. Although the formation of hollow spheres of nanoparticles has been engineered for Co at higher temperatures [Y. Yin, R. M. Riou, C. K. Erdonmez, S. Hughes, G. A. Somorjari, and A. P. Alivisatos, Science 304, 711 (2004)], they occur for iron at room temperature and provide insight into the initial oxidation processes of iron. There exists a critical size of ∼8nm for which the iron has been fully oxidized, leading to a hollow iron-oxide nanoparticle. For particles larger than the critical size, an iron/iron-oxide core-shell structure was formed and voids reside at the interface between the oxide shell and the iron core. The present observation provides new insight for tailoring of metal/metal-oxide core-shell structured nanoparticles for applications related to optics, magnetism, and nanoelectronics.

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Electron beam-induced thickening of the protective oxide layer around Fe nanoparticles

Wang

Baer

Amonette

et al. 2007

Ultramicroscopy

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The solubility of barite and celestite in sodium sulfate: Evaluation of thermodynamic data

Felmy¹,

Rai²,

Amonette³

1990

J Solution Chem

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Nonionic Surfactant Effects on Adsorption and Degradation of 2,4‐D

Amonette¹,

O’Connor

1980

Soil Science Soc of Amer J

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The effects of three nonionic surfactants on 2,4‐D (2,4‐dichlorophenoxyacetic acid) adsorption and degradation was determined for two soils in laboratory studies. The surfactants varied in water solubilities and hydrophilic‐lipophilic balance (HLB) values.Adsorption of 2,4‐D was significantly decreased in both soils by the least water‐soluble surfactant, X‐35. Degradation of 2,4‐D was also significantly delayed by X‐35 to various extents in both soils. However, extent of degradation was independent of treatments after 70 days. Various hypotheses, based on surfactant properties, are offered to explain the adsorption and degradation results. When surfactant concentrations remain above the critical micrelle concentration, nonionic surfactants with low HLB values can significantly alter 2,4‐D behavior in soil. Surfactants with high HLB values appear to have little effect on 2,4‐D behavior.

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Synthesis, Characterization, and Properties of Zero-Valent Iron Nanoparticles

Baer

Tratnyek

Qiang

et al. 2007

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J. E. Amonette

Void formation during early stages of passivation: Initial oxidation of iron nanoparticles at room temperature

Electron beam-induced thickening of the protective oxide layer around Fe nanoparticles

The solubility of barite and celestite in sodium sulfate: Evaluation of thermodynamic data

Nonionic Surfactant Effects on Adsorption and Degradation of 2,4‐D

Synthesis, Characterization, and Properties of Zero-Valent Iron Nanoparticles

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