D. M. Lowe scite author profile

We have developed a high conductivity bilayered ceria/bismuth oxide anolyte/electrolyte that uses the Po gradient to obtain stability at the anolyte-electrolyte interface and reduced electronic conduction due to the electroly3te region. Results in terms of solid oxide fuel cell (SOFC) performance and stability are presented. These results include a 90 to 160 mV increase in open-circuit potential, depending on temperature, with the bilayered structure as compared to SOFCs fabricated from a single ceria layer. An open-circuit potential of >1.0 V was obtained at 500°C with the bilayered structuie. This increase in open-circuit potential is obtained without any measurable increase in cell resistance and is stable for over 1400 h of testing, under both open-circuit and maximum power conditions. Moreover, SOFCs fabricated from the bilayered structure result in a 33% greater power density as compared to cells with a single ceria electrolyte layer.

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Stability of supported metal and supported metal oxide combustion catalysts

McCarty

et al. 1999

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Characterisation of historic plastics using terahertz time-domain spectroscopy and pulsed imaging

et al. 2012

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Terahertz (THz) time-domain spectroscopy and 3D THz pulsed imaging have been explored with regard to polymer materials, both commodity and historic polymers. A systematic spectroscopic study of a wide range of different polymer materials showed significant differences in their spectra. Polyolefins and polystyrenes generally exhibit lower absorption than other examined polymers, various cellulose derivates, poly(vinyl chloride), poly(methyl methacrylate), polyamide, hard rubber and phenol formaldehyde resin, the last of these exhibiting the most intense absorption over the entire range, 0.15-4.2 THz. It was also examined how the presence of plasticisers in poly(vinyl chloride), the presence of fillers in polypropylene, and the degree of branching in polyethylene and polystyrene affect the spectra; inorganic fillers in polypropylene affected the absorption most. With 3D THz pulsed imaging, features in polymer objects were explored, appearing either as integral parts of the material (coatings and pores in foams) or as a consequence of physical deterioration (cracks, delamination). All of these features of various complexities can be successfully imaged in 3D. Terahertz technology is thus shown to have significant potential for both chemical and structural characterisation of polymers, which will be of interest to heritage science, but also to the polymer industry and development of analytical technologies in general.

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Application of combinatorial catalysis for the direct amination of benzene to aniline

Hagemeyer¹,

Borade²,

Desrosiers³

et al. 2002

Applied Catalysis A: General

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D. M. Lowe

Stable High Conductivity Ceria/Bismuth Oxide Bilayered Electrolytes

Stability of supported metal and supported metal oxide combustion catalysts

Characterisation of historic plastics using terahertz time-domain spectroscopy and pulsed imaging

Application of combinatorial catalysis for the direct amination of benzene to aniline

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