STRUCTURE AND PROPERTIES OF SELF-ASSEMBLED SUB-MICRON THIN NAFION® FILMS

Paul, DEVPROSHAD

10 October 2013

This thesis is concerned with the study of morphology and properties of sub-micron thin Nafion® films. The motivation of the work arises from the need to characterize the 4 -10 nm thin ionomer films in the catalyst layer of polymer electrolyte fuel cell (PEFC). A protocol for the fabrication of self-assembled ultra-thin Nafion® films on planar substrates was successfully developed. Films of thickness ranging 4 nm-300 nm, determined by three different techniques - variable angle spectroscopy ellipsometry (VASE), atomic force microscope (AFM) and x-ray photo-electron spectroscopy (XPS), could be reproducibly generated on SiO2/Si wafer. The 4 nm thin film is one of the thinnest, continuous film of Nafion® ever reported. This is the first time that the structure/properties of such thin Nafion® film have been investigated. An interesting finding is the thickness-dependent structure and property of these films. Films with thickness <55 nm exhibited hydrophilic-free surface but thicker films (>55 nm) had hydrophobic surface. Similarly, sub-55 nm films had a lower and thickness-independent protonic conductivity compared to thicker films that exhibited thickness-dependent conductivity. Anomalously high water uptake (by quartz crystal microbalance) and swelling (by ellipsometry) of sub-55nm films indicate that low conductivity is not due to low water content However, differences in surface morphology were observed by the AFM phase contrast analysis. The lack of ionic domain was also observed in the thinner films (4-30 nm) from the grazing incidence small x-ray scattering (GISAXS) experiments. Thermal annealing over a range of temperature (110-160 oC) revealed a dramatic switching of the film surface from hydrophilic to hydrophobic was observed for sub-55 nm films with lower thickness film requiring higher annealing temperature. Bulk proton conductivity was significantly reduced after annealing for all films. An interesting finding was the regeneration of conductivity after to prolonged liquid water exposure and a corresponding switching back of the surface to hydrophilic. The thickness-dependent structure/property of ultra-thin Nafion® films is attributed to substrate induced confinement effect. Self-assembly of Nafion® on various substrates (SiO2, carbon, Pt and Au) was studied. The ionomer/substrate interaction and resulting film morphology followed a trend with respect to substrate surface energies and Nafion® dispersion compositions. / Thesis (Ph.D, Chemical Engineering) -- Queen's University, 2013-09-29 12:36:19.05

Surface wettability

PEFC

Annealing effect

Substrate effect

Nafion ultrathin film

X-beam damage

Electrochemical Impedance Spectroscopy

Proton conductivity

Élaboration et caractérisation de couches minces co-dopées In, Co, préparées par la pulvérisation cathodique, applications aux cellules photovoltaïques / Preparation and characterization of thin co-doped layers In, Co, prepared by cathodic sprayed, applications to photovoltaic cells

Slimi, Houyem

29 January 2019

Ce travail avait pour objectif de réaliser des couches minces de Zno co-dopées Cobalt et Indium en vue de la réalisation de cellules photovoltaïques. Pour la fabrication des couches minces, nous avons choisi la méthode de pulvérisation cathodique en radio fréquence. Cette méthode nous permet d'obtenir des couches ayant différentes propriétés qui dépendent des paramètres de dépôt. Les couches minces de CIZO obtenus sont recuites sous N2 et H2 pour la série 1 et O2 pour la série 2. Dans la première partie de ce travail, nous avons entrepris une étude des propriétés morphologiques, vibrationnelles et optiques.Dans la deuxième partie de ce travail, nous avons étudié l'effet de l'épaisseur et l'effet de recuit sous azote pour améliorer les différentes propriétés (structurales, morphologiques, optiques et électriques) de nos échantillons. Dans la troisième partie de ce travail, nous avons étudié l'influence de temps de recuite sur les différentes propriétés (structurales, morphologiques, optiques et électriques) de nos échantillons. / This work has a purpose to make thin layers of Zno co-dopees cobalt and indium for the production of photovoltaic cells. For the manufacture of thin layers, we have chosen the method of magnatron sputtring. This method allows we obtain layers having different properties which depend on parameters of deposition. Thick layers of cizo obtained are received inN2 and H2 for series 1 and O2 for series 2. In the first part of this work, we have undertaken a study of the morphological, vibrational and optical properties. In the second part of this work, we have experienced the effect of thickness and the effect of anneling on the different properties (structural, morphological, optical, and electrical) of our samples. In the third part of this work, we have investigated the influence of annealing time on the different properties (structural, morphological, optical and electrical) of our samples.

Couches minces

Pulvérisation cathodique

Indium

Cobalt

Effet de recuit

Effet de l'épaisseur

Effet de temps de recuit

Cellules photovoltaïques

Thin film

Cathode spraying

Indium

Cobalt

Annealing effect

Effect of the thickness

Annealing time effect

Photovoltaic cells