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Article Dans Une Revue ACS Applied Materials & Interfaces Année : 2015

Nanoparticle Adhesion and Mobility in Thin Layers: Nanodiamonds As a Model

Résumé

Small size and enhanced properties of nano-particles (NP) are great advantages toward device miniaturization. However, adhesion is essential for the reliability of such NP layer-based devices. In this work, we present some quick tests to investigate the adhesion behavior of the whole NP layer by mimicking several applicative environments: biological buffers and cells, corrosion, and microfabrication processes. This statistic approach evaluates both adhesion and mobility respectively through particle density and layer homogeneity. We chose nanodiamonds (ND) as reference particles because they are spherical and inert and exhibit either positive or negative zeta potential for the same diameter while surfactant-free. Several deposition methods were used to prepare a wide range of ND layers with various densities and size distribution. We found some unexpected results confirming that the deposition method has to be carefully selected according to the targeted application. A selection of the suitable method(s) to prepare ND layers which are resilient in their applicative environment can be done based on these results. However, ND adhesion still remains critical in some conditions and thus requires further improvement. Most important, this study points out that NP adhesion behavior is more complex than simple particle detachment-or not-from the surface. The particles could also reorganize themselves in clusters. We evidenced, in particular, a surprising mobility driven by air/water interfaces during evaporation of water microdroplets. Further comparison with other materials would indicate if the highlighted phenomena could be extended to any nanoparticles layer.
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Dates et versions

hal-01864069 , version 1 (29-08-2018)

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Magdalèna Couty, Hugues Girard, Samuel Saada. Nanoparticle Adhesion and Mobility in Thin Layers: Nanodiamonds As a Model. ACS Applied Materials & Interfaces, 2015, 7 (29), pp.15752 - 15764. ⟨10.1021/acsami.5b02364⟩. ⟨hal-01864069⟩
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