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Your search keyword '"Drennan J"' showing total 21 results
Start Over Author "Drennan J" Journal solid state ionics
21 results on '"Drennan J"'

15. A study of anion transport in bismuth based oxide systems by electrical conductivity and secondary ion mass spectroscopy (SIMS)

Author

Kilner, J.A., Drennan, J., Dennis, P., and Steele, B.C.H.

Abstract

The anion transport properties of the γ-Bi2O3(sillenite) structure compounds MOX.− 6Bi2O3with M = Si and Pb have been determined by electrical conductivity and oxygen self diffusion measurements. The differences in transport properties seen are related to the nature of the M cation.

Published
1981
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16. Composite electrodes

Author

Owen, J.R., Drennan, J., Lagos, G.E., Spurdens, P.C., and Steele, B.C.H.

Abstract

A model is developed to describe the performance of composite electrodes - i.e. polycrystalline insertion electrodes bound with a solid electrolyte - in solid state batteries. By solving the Nernst-Planck equation in terms of the ionic conductivities of the electrode and electrolyte together with the Faradaic capacity of the electrode, the composite is represented by a network of electrical components. A.c. and d.c. experiments are presented to illustrate the influence of grain size, relative conductivities and other parameters of the materials with particular reference to the electrodes V6O13, LiAl and the electrolyte polyethylene oxide lithium trifluoromethane sulphonate.

Published
1981
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17. Thermodynamics and kinetics of lithium diffusion in V6O13

Author

Spurdens, P.C., Drennan, J., Owen, J.R., Steele, B.C.H., Gonzales-Calbet, J.M., and Jefferson, D.A.

Abstract

The equilibrium voltage-composition curve for LixV6O13between x= 0 and x= 0.7 has been determined in a cell using a single crystal V6O13cathode, polymer solid electrolyte and a lithium metal anode. Values obtained for the diffusion coefficient of lithium from galvanostatic experiments were found to vary from 10−8to 10−9cm2S−1; however the interference of a limiting factor other than that of diffusion in V6O13was suspected. From the variation of open circuit voltage with temperature the partial molar entropy of lithium has been determined as a function of composition. Defects in the structure of the non-stoichiometric decomposition product of NH4VO3have been observed by high resolution electron microscopy.

Published
1981
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20. Conductivity/microstructure study of a pyrochlore-type ordered phase in the compound Zr0.75Ce0.08Nd0.17O1.92

Author

Kimpton, J., Randle, T.H., and Drennan, J.

Subjects
*MICROSTRUCTURE, *TRANSMISSION electron microscopy
Abstract

The compound Zr0.75Ce0.08Nd0.17O1.92 was investigated as part of a much larger electrical conductivity/microstructure study of the systems ZrO2–CeO2–M2O3 (where M=Nd, Sm, …, Yb) [Solid State Ionics (2002)]. Electrical conductivity measurements performed in air at 800 °C showed significant conductivity degradation over a period of 200 h. Investigation of the annealed and as-fired specimens by ATEM revealed the presence of an emerging, ordered pyrochlore-type phase within the Zr0.75Ce0.08Nd0.17O1.92 defect-fluorite solid solution at much lower dopant levels than observed previously for zirconia binary systems. [Copyright &y& Elsevier]

Published
2002
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21. Investigation of electrical conductivity as a function of dopant-ion radius in the systems Zr0.75Ce0.08M0.17O1.92 (M=Nd, Sm, Gd, Dy, Ho, Y, Er, Yb, Sc)

Author

Kimpton, J., Randle, T.H., and Drennan, J.

Subjects
*OXIDES, *ELECTRIC conductivity
Abstract

Electrical conductivity versus dopant ionic radius studies in zirconia- and ceria-based, solid oxide fuel cell (SOFC) electrolyte systems have shown that oxygen-ion conductivity is highest when the host and dopant ions are similar in size [J. Am. Ceram. Soc. 48 (1965) 286; Solid State Ionics 37 (1989) 67; Solid State Ionics 5 (1981) 547]. Under these conditions, it is thought that the conduction paths within the crystal lattice become less distorted [Solid State Ionics 8 (1983) 201]. In this study, binary ZrO2–M2O3 unit cells were expanded, via the partial substitution of Ce+4 for Zr+4 into the lattice, in an attempt to identify new, ternary, zirconia/ceria-based electrolyte systems with enhanced electrical conductivity. The compositions Zr0.75Ce0.08M0.17O1.92 (M=Nd, Sm, Gd, Dy, Ho, Y, Yb, Sc) were prepared using traditional solid state techniques. Bulk phase characterisation and precise lattice parameter measurements were performed with X-ray diffraction techniques. Four-probe DC conductivity measurements between 400 and 900 °C showed that the dopant-ion radius influenced electrical conductivity. The conductivity versus dopant-ion radius trends previously observed in zirconia-based, binary systems are clearly apparent in the ternary systems investigated in this study. The addition of ceria was found to have a negative influence on the electrical conductivity over the temperature range 400–900 °C. It is suggested that distortion of the oxygen-ion conduction path by the presence of the larger M+3 and Ce+4 species (relative to Zr+4) is the reason for the decreasing electrical conductivity as a function of increasing dopant size and ceria addition, respectively. [Copyright &y& Elsevier]

Published
2002
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