Structure, properties and formation of PuCrO3 and PuAlO3 of relevance to doped nuclear fuels

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Structure, properties and formation of PuCrO3 and PuAlO3 of relevance to doped nuclear fuels. / Fullarton, Michele L.; Qin, Meng J.; Robinson, Marc et al.
In: Journal of Materials Chemistry A, Vol. 1, No. 46, 2013, p. 14633-14640.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Fullarton, ML, Qin, MJ, Robinson, M, Marks, NA, King, DJM, Kuo, EY, Lumpkin, GR & Middleburgh, SC 2013, 'Structure, properties and formation of PuCrO3 and PuAlO3 of relevance to doped nuclear fuels', Journal of Materials Chemistry A, vol. 1, no. 46, pp. 14633-14640. https://doi.org/10.1039/c3ta12782f

APA

Fullarton, M. L., Qin, M. J., Robinson, M., Marks, N. A., King, D. J. M., Kuo, E. Y., Lumpkin, G. R., & Middleburgh, S. C. (2013). Structure, properties and formation of PuCrO3 and PuAlO3 of relevance to doped nuclear fuels. Journal of Materials Chemistry A, 1(46), 14633-14640. https://doi.org/10.1039/c3ta12782f

CBE

Fullarton ML, Qin MJ, Robinson M, Marks NA, King DJM, Kuo EY, Lumpkin GR, Middleburgh SC. 2013. Structure, properties and formation of PuCrO3 and PuAlO3 of relevance to doped nuclear fuels. Journal of Materials Chemistry A. 1(46):14633-14640. https://doi.org/10.1039/c3ta12782f

MLA

Fullarton, Michele L. et al. "Structure, properties and formation of PuCrO3 and PuAlO3 of relevance to doped nuclear fuels". Journal of Materials Chemistry A. 2013, 1(46). 14633-14640. https://doi.org/10.1039/c3ta12782f

VancouverVancouver

Fullarton ML, Qin MJ, Robinson M, Marks NA, King DJM, Kuo EY et al. Structure, properties and formation of PuCrO3 and PuAlO3 of relevance to doped nuclear fuels. Journal of Materials Chemistry A. 2013;1(46):14633-14640. doi: 10.1039/c3ta12782f

Author

Fullarton, Michele L. ; Qin, Meng J. ; Robinson, Marc et al. / Structure, properties and formation of PuCrO3 and PuAlO3 of relevance to doped nuclear fuels. In: Journal of Materials Chemistry A. 2013 ; Vol. 1, No. 46. pp. 14633-14640.

RIS

TY - JOUR

T1 - Structure, properties and formation of PuCrO3 and PuAlO3 of relevance to doped nuclear fuels

AU - Fullarton, Michele L.

AU - Qin, Meng J.

AU - Robinson, Marc

AU - Marks, Nigel A.

AU - King, Daniel J. M.

AU - Kuo, Eugenia Y.

AU - Lumpkin, Gregory R.

AU - Middleburgh, Simon C.

PY - 2013

Y1 - 2013

N2 - We have employed a variety of computational methods to understand the behaviour of Pu, generated by neutron capture reactions in UO2 fuel, with Cr2O3 and Al2O3, two common UO2 fuel dopants. Structure search calculations using density functional theory and empirical potentials show that PuCrO3 and PuAlO3 are likely to form in these systems. The lowest energy structure adopted by both compounds is predicted to be the orthorhombic (Pnma) GdFeO3-type perovskite structure. Relative to UO2, the thermal conductivity of PuCrO3 was calculated to be approximately three times smaller over the explored temperature range and therefore the presence of this phase will impact the microstructure, fission product distribution and gas release properties of UO2-based fuels. In contrast, the PuAlO3 phase had a similar thermal conductivity to UO2. Calculated defect energies suggest that defects in both PuCrO3 and PuAlO3 will be dominated by antisite defects and that their radiation tolerances are similar to that of UO2. Calculation of the solution and partition energies of a range of trivalent cations indicate that minor actinides are likely to substitute for Pu in the perovskite structure having an impact on the in-reactor behaviour of Cr-containing fuels and subsequently the waste reprocessing route.

AB - We have employed a variety of computational methods to understand the behaviour of Pu, generated by neutron capture reactions in UO2 fuel, with Cr2O3 and Al2O3, two common UO2 fuel dopants. Structure search calculations using density functional theory and empirical potentials show that PuCrO3 and PuAlO3 are likely to form in these systems. The lowest energy structure adopted by both compounds is predicted to be the orthorhombic (Pnma) GdFeO3-type perovskite structure. Relative to UO2, the thermal conductivity of PuCrO3 was calculated to be approximately three times smaller over the explored temperature range and therefore the presence of this phase will impact the microstructure, fission product distribution and gas release properties of UO2-based fuels. In contrast, the PuAlO3 phase had a similar thermal conductivity to UO2. Calculated defect energies suggest that defects in both PuCrO3 and PuAlO3 will be dominated by antisite defects and that their radiation tolerances are similar to that of UO2. Calculation of the solution and partition energies of a range of trivalent cations indicate that minor actinides are likely to substitute for Pu in the perovskite structure having an impact on the in-reactor behaviour of Cr-containing fuels and subsequently the waste reprocessing route.

U2 - 10.1039/c3ta12782f

DO - 10.1039/c3ta12782f

M3 - Article

VL - 1

SP - 14633

EP - 14640

JO - Journal of Materials Chemistry A

JF - Journal of Materials Chemistry A

SN - 2050-7488

IS - 46

ER -