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Microscopic chemical imaging: a key to understand ion mobility in tight formations
Grolimund, D., Van Loon, L. R., Wang, H. A. O., Marone, F., Diaz, N., Kaestner, A., & Jakob, A. (2016). Microscopic chemical imaging: a key to understand ion mobility in tight formations. In T. Schäfer, R. Dohrmann, & H. C. Greenwell (Eds.), Clay minerals society workshop lectures series: Vol. 21. Filling the gaps – from microscopic pore structures to transport properties in shales (pp. 105-128). https://doi.org/10.1346/CMS-WLS-21-9
Characterization of selenium in UO<sub>2</sub> spent nuclear fuel by micro X-ray absorption spectroscopy and its thermodynamic stability
Curti, E., Puranen, A., Grolimund, D., Jädernas, D., Sheptyakov, D., & Mesbah, A. (2015). Characterization of selenium in UO2 spent nuclear fuel by micro X-ray absorption spectroscopy and its thermodynamic stability. Environmental Science: Processes and Impacts, 17(10), 1760-1768. https://doi.org/10.1039/c5em00275c
Selenium redox speciation and coordination in high-burnup UO<sub>2</sub> fuel: consequences for the release of <sup>79</sup>Se in a deep underground repository
Curti, E., Froideval-Zumbiehl, A., Günther-Leopold, I., Martin, M., Bullemer, A., Linder, H., … Grolimund, D. (2014). Selenium redox speciation and coordination in high-burnup UO2 fuel: consequences for the release of 79Se in a deep underground repository. Journal of Nuclear Materials, 453(1-3), 98-106. https://doi.org/10.1016/j.jnucmat.2014.07.003
Redox state of plutonium in irradiated mixed oxide fuels
Degueldre, C., Pin, S., Poonoosamy, J., & Kulik, D. A. (2014). Redox state of plutonium in irradiated mixed oxide fuels. Journal of Physics and Chemistry of Solids, 75(3), 358-365. https://doi.org/10.1016/j.jpcs.2013.11.001
X-ray micro-diffraction studies of heterogeneous interfaces between cementitious materials and geological formations
Dähn, R., Popov, D., Schaub, P., Pattison, P., Grolimund, D., Mäder, U., … Wieland, E. (2014). X-ray micro-diffraction studies of heterogeneous interfaces between cementitious materials and geological formations. Physics and Chemistry of the Earth, 70-71, 96-103. https://doi.org/10.1016/j.pce.2013.10.010
Anisotropic diffusion at the field scale in a 4-year multi-tracer diffusion and retention experiment - I: Insights from the experimental data
Gimmi, T., Leupin, O. X., Eikenberg, J., Glaus, M. A., Van Loon, L. R., Waber, H. N., … Wittebroodt, C. (2014). Anisotropic diffusion at the field scale in a 4-year multi-tracer diffusion and retention experiment - I: Insights from the experimental data. Geochimica et Cosmochimica Acta, 125, 373-393. https://doi.org/10.1016/j.gca.2013.10.014
A micro-XAS/XRF and thermodynamic study of Ce<sup>III/IV</sup> speciation after long-term aqueous alteration of simulated nuclear waste glass: relevance for predicting Pu behavior?
Curti, E., Grolimund, D., & Borca, C. N. (2012). A micro-XAS/XRF and thermodynamic study of CeIII/IV speciation after long-term aqueous alteration of simulated nuclear waste glass: relevance for predicting Pu behavior? Applied Geochemistry, 27(1), 56-63. https://doi.org/10.1016/j.apgeochem.2011.08.016
High spatial resolution quantitative imaging by cross-calibration using laser ablation inductively coupled plasma mass spectrometry and synchrotron micro-X-ray fluorescence technique
Wang, H. A. O., Grolimund, D., Van Loon, L. R., Barmettler, K., Borca, C. N., Aeschlimann, B., & Günther, D. (2012). High spatial resolution quantitative imaging by cross-calibration using laser ablation inductively coupled plasma mass spectrometry and synchrotron micro-X-ray fluorescence technique. Chimia, 66(4), 223-228. https://doi.org/10.2533/chimia.2012.223
Quantitative chemical imaging of element diffusion into heterogeneous media using laser ablation inductively coupled plasma mass spectrometry, synchrotron micro-X-ray fluorescence, and extended X-ray absorption fine structure spectroscopy
Wang, H. A. O., Grolimund, D., Van Loon, L. R., Barmettler, K., Borca, C. N., Aeschlimann, B., & Günther, D. (2011). Quantitative chemical imaging of element diffusion into heterogeneous media using laser ablation inductively coupled plasma mass spectrometry, synchrotron micro-X-ray fluorescence, and extended X-ray absorption fine structure spectroscopy. Analytical Chemistry, 83(16), 6259-6266. https://doi.org/10.1021/ac200899x