Guido Deissmann scite author profile

This paper focuses on major phosphate-based ceramic materials relevant for the immobilisation of Pu, minor actinides, fission and activation products. Key points addressed include the recent progress regarding synthesis methods, the formation of solid solutions by structural incorporation of actinides or their non-radioactive surrogates and waste form fabrication by advanced sintering techniques. Particular attention is paid to the properties that govern the long-term stability of the waste forms under conditions relevant to geological disposal. The paper highlights the benefits gained from synergies of state-of-the-art experimental approaches and advanced atomistic modeling tools for addressing properties and stability of f-element-bearing phosphate materials. In conclusion, this article provides a perspective on the recent advancements in the understanding of phosphate based ceramics and their properties with respect to their application as nuclear waste forms.

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Effects of solution supersaturation on barite precipitation in porous media and consequences on permeability: Experiments and modelling

Poonoosamy

Klinkenberg

Deissmann

et al. 2020

Geochimica et Cosmochimica Acta

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A microfluidic experiment and pore scale modelling diagnostics for assessing mineral precipitation and dissolution in confined spaces

et al. 2019

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Microfluidic flow-through reactor and 3D Raman imaging forin situassessment of mineral reactivity in porous and fractured porous media

et al. 2020

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Guido Deissmann

New insights into phosphate based materials for the immobilisation of actinides

Effects of solution supersaturation on barite precipitation in porous media and consequences on permeability: Experiments and modelling

A microfluidic experiment and pore scale modelling diagnostics for assessing mineral precipitation and dissolution in confined spaces

Microfluidic flow-through reactor and 3D Raman imaging forin situassessment of mineral reactivity in porous and fractured porous media

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