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Atom Probe Tomography Characterization of Engineered Oxide Multilayered Structures

  • M. I. Nandasiri (a1), N. Madaan (a1), A. Devaraj (a1), J. Bao (a2), Z. Xu (a2), T. Varga (a1), V. Shutthanandan (a1) and S. Thevuthasan (a3)...
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Abstract

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References

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[1] Singhal, S.C., Solid oxide fuel cells for stationary, mobile, and military applications. Solid State Ionics (2002) 152–153, 405410.
[2] Wachsman, E.D. & Lee, K.T., Lowering the Temperature of Solid Oxide Fuel Cells. Science (2011) 334(6058), 935939.
[3] Emiliana, F., Daniele, P. & Enrico, T., Ionic conductivity in oxide heterostructures: the role of interfaces. Science and Technology of Advanced Materials (2010) 11(5), 054503.
[4] Kelly, T. F. & Larson, D. J., The second revolution in atom probe tomography. MRS Bulletin (2012) 37(2), 150158.
[5] Devaraj, A., Colby, R., Hess, W. P., Perea, D. E. & Thevuthasan, S., The Role of Photoexcitation and Field Ionization in the Measurement of Accurate Oxide Stoichiometry by Laser Assisted Atom Probe Tomography. Journal of Physical Chemistry Letters (2013) 4(6), 993998.
[6] Devaraj, A., Colby, R., Vurpillot, F. & Thevuthasan, S., Understanding Atom Probe Tomography of Oxide-Supported Metal Nanoparticles by Correlation with Atomic-Resolution Electron Microscopy and Field Evaporation Simulation. Journal of Physical Chemistry Letters (2014) 5, 13611367.
[7] Xu, Z., Li, D., Xu, W., Devaraj, A., Colby, R., Thevuthasan, S., Geiser, B. P. & Larson, D. J., Simulation of heterogeneous atom probe tip shape evolution during field evaporation using a level set method and different evaporation models. Computer Physics Communications (2015) 189, 106113.

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