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Projekt Druckansicht

2-Dimensional Ion Conducting Bismuth Vanadates for Electrochemical Devices

Fachliche Zuordnung Experimentelle Physik der kondensierten Materie
Förderung Förderung von 2012 bis 2016
Projektkennung Deutsche Forschungsgemeinschaft (DFG) - Projektnummer 198685931
 
Erstellungsjahr 2015

Zusammenfassung der Projektergebnisse

Bismuth vanadate compounds are of high interest due to their high ionic conductivity, especially at moderate temperatures between 300 and 500 °C. Therefore, a large potential exists for a usage in the field of fuel cells, oxygen separation membranes and gas sensing devices. The project “2-Dimensional Ion Conducting Bismuth Vanadates for Electrochemical Devices” was a collaborative project between DFG and NSF, in the framework of Materials World Network. Project goals were the detailed investigation of material stability and properties as well as to explore their suitability for electrochemical devices. The main findings of the project are the following:  Modest texturing of bismuth vanadate bulk samples up to 16 % can be achieved by hot forging. Samples were characterized and showed anisotropic properties for ionic conductivity as well as thermal expansion. Thermal aging at 400 and 500 °C as well as stability towards low oxygen partial pressures were investigated. While at 500 °C all samples were stable and conductivity was constant for a time period of 48 h, textured samples showed a decrease in conductivity when held at 400 °C. This is probably caused by a γ-γ' phase transition, that comes with an ordering of oxygen vacancies. Dense thick films of doped bismuth vanadate were produced for the first time using a novel spray coating method called aerosol deposition (AD). The after treatment was investigated in detail and already moderate annealing at 500 °C yield an ionic conductivity close to the bulk value. The release of non-uniform lattice strain was identified as the main reason for the increase of conductivity during annealing. AD films showed improved strength, adhesion and ionic conductivity compared to conventional screen-printed films.  By aerosol codeposition dense composite films of a Bi2O3:V2O5 mixture can be deposited, however a change in composition occurred during the process. In situ calcination of the composite film was possible and lead to stable, but porous BiVO4 films.  A planar NO2 sensor was prepared by aerosol deposition of bismuth vanadate. The sensor utilizes the pulse polarization technique and it was achieved to measure small concentrations of NO2 without any sensitivity to NO.

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