G. Petot-Ervas scite author profile

G. Petot-Ervas

3Publications

108Citation Statements Received

135Citation Statements Given

How they've been cited

149

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Affiliations

CEA Saclay, École Centrale Paris, French National Centre for Scientific Research

Publications

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Electrical Conductivity and Thermoelectric Power of Uranium Dioxide

Ruello

Petot-Ervas

Petot

et al. 2005

Journal of the American Ceramic Society

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The electrical conductivity and thermoelectric power of an uranium dioxide single crystal were measured between 908 and 1697 K and for PO2 included between 10−24 atm and the boundary UO2+x/U4O9. For T<1273 K and near stoichiometry, the electrical conductivity versus PO2 shows a plateau characteristic of an extrinsic regime. For T≥1273 K, the conductivity exhibits a minimum. The Seebeck coefficient Q̄UO2 also exhibits a behavior change when the temperature is increased. For T<1200 K, Q̄UO2 remains positive whatever the values of PO2. For T>1200 K, Q̄UO2 changes from negative to positive values when PO2 increases. This set of results shows that the stoichiometric oxide presents a p extrinsic to intrinsic transition near 1273 K. At T≤1273 K, the extrinsic conductivity values versus temperature confirm that the mobility of the holes occurs by a small polaron process, with an activation energy of 0.17 eV. At T>1273 K, the electrical conductivity minima are characteristic of a p→n transition. A band gap energy of 2.0 eV has been calculated from the temperature dependence of these conductivity minima values. Furthermore, this set of results has allowed us to determine the relative oxygen partial molar free energy of stoichiometric UO2.

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Chemical diffusion in uranium dioxide – influence of defect interactions

Ruello

Chirlesan

Petot-Ervas

et al. 2004

Journal of Nuclear Materials

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Kinetic demixing of ceramics in an electrical field

et al. 1994

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G. Petot-Ervas

Electrical Conductivity and Thermoelectric Power of Uranium Dioxide

Chemical diffusion in uranium dioxide – influence of defect interactions

Kinetic demixing of ceramics in an electrical field

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