Nanostructured porous coatings via electrospray atomization and deposition of nanoparticle suspensions

The controlled deposition of aerosols is shown to be a valuable tool to prepare nanostructured porous coatings as required in many applications. Experiments were conducted to prepare nanostructured materials from the electrohydrodynamic atomization of liquid suspensions. The charged droplets generat...

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Bibliographic Details
Published in:Journal of aerosol science 2018-11, Vol.125, p.148-163
Main Authors: Castillo, J.L., Martin, S., Rodriguez-Perez, D., Higuera, F.J., Garcia-Ybarra, P.L.
Format: Article
Language:English
Subjects:
Aerosol Nanotechnology
Catalytic materials
Deposit formation
Electrospray
Fuel cell electrodes
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Summary:The controlled deposition of aerosols is shown to be a valuable tool to prepare nanostructured porous coatings as required in many applications. Experiments were conducted to prepare nanostructured materials from the electrohydrodynamic atomization of liquid suspensions. The charged droplets generated by the electrospray are driven by the electric field, the liquid evaporates along the droplet path leaving a dry residue of nanoparticles that deposit on a substrate. The range of parameters leading to a stable cone-jet was studied for two different suspensions; carbon nanoparticles in ethanol and catalytic inks formed by Pt supported on carbon nanoparticles and Nafion® in ethanol. The morphology of the deposits was examined by means of digital scanning electron microscope (SEM) images. Upper views of the deposit show a structure based on clusters of nanoparticle aggregates formed by the attachment at the deposit of nanoparticle aggregates coming from several electrospray droplets, with the cluster size (of the order of 10 µm) increasing with the flow rate. Lateral SEM images of the deposits cross-sections were processed to calculate the deposit mean density and porosity. The porosity is rather high (always larger than 90%) decreasing as the electrospray flow rate increases. Coatings prepared from catalytic inks were tested as electrodes in a fuel cell. These electrodes have shown extremely large specific power (reaching a power of 21 kW per gram of Pt in the cell) due to the outstanding properties of the electrosprayed catalytic layer: large porosity, uniform distribution of the catalyst and high density of (Pt) active sites. [Display omitted] •Experimental study of thin porous coatings prepared by electrospraying liquid suspensions of nanoparticles.•Range of steady cone-jet electrosprays for ethanol suspensions of carbon nanoparticles and catalytic particles.•Dependence of the coating morphology on the electrospray flow rate.•High performance of coatings formed by Pt/C nanoparticles as fuel cell electrodes.
ISSN:0021-8502
1879-1964
DOI:10.1016/j.jaerosci.2018.03.004