A.M. Flank scite author profile

The production of nanoparticles (NPs) is increasing rapidly for applications in electronics, chemistry, and biology. This interest is due to the very small size of NPs which provides them with many interesting properties such as rapid diffusion, high specific surface areas, reactivity in liquid or gas phase, and a size close to biomacromolecules. In turn, these extreme abilities might be a problem when considering a potentially uncontrolled exposure to the environment. For instance, nanoparticles might be highly mobile and rapidly transported in the environment or inside the body through a water or air pathway. Accordingly, the very fast development of these new synthetic nanomaterials raises questions about their impact on the environment and human health. We have studied the impact of a model water dispersion of nanoparticles (7 nm CeO2 oxide) on a Gram-negative bacteria (Escherichia coli). The nanoparticles are positively charged at neutral pH and thus display a strong electrostatic attraction toward bacterial outer membranes. The counting of colony forming units (CFU) after direct contact with CeO2 NPs allows for the defining of the conditions for which the contact is lethal to Escherichia coli. Furthermore, a set of experiments including sorption isotherms, TEM microscopy, and X-ray absorption spectroscopy (XAS) at cerium L3 edge is linked to propose a scenario for the observed toxic contact.

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LUCIA, a microfocus soft XAS beamline

Flank

Cauchon

Lagarde

et al. 2006

Nuclear Instruments and Methods in Physics Research Section B:

183

126

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Heterogeneous behaviour of the lithium battery composite electrode LiFePO4

Ouvrard

Zerrouki

Soudan

et al. 2013

Journal of Power Sources

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A.M. Flank

Cytotoxicity of CeO₂ Nanoparticles for Escherichia coli. Physico-Chemical Insight of the Cytotoxicity Mechanism

LUCIA, a microfocus soft XAS beamline

Heterogeneous behaviour of the lithium battery composite electrode LiFePO4

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A.M. Flank

Cytotoxicity of CeO2 Nanoparticles for Escherichia coli. Physico-Chemical Insight of the Cytotoxicity Mechanism

LUCIA, a microfocus soft XAS beamline

Heterogeneous behaviour of the lithium battery composite electrode LiFePO4

Contact Info

Product

Resources

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Cytotoxicity of CeO₂ Nanoparticles for Escherichia coli. Physico-Chemical Insight of the Cytotoxicity Mechanism