Issue 8, 2024

Towards informatics-driven design of nuclear waste forms

Abstract

Informatics-driven approaches, such as machine learning and sequential experimental design, have shown the potential to drastically impact next-generation materials discovery and design. In this perspective, we present a few guiding principles for applying informatics-based methods towards the design of novel nuclear waste forms. We advocate for adopting a system design approach, and describe the effective usage of data-driven methods in every stage of such a design process. We demonstrate how this approach can optimally leverage physics-based simulations, machine learning surrogates, and experimental synthesis and characterization, within a feedback-driven closed-loop sequential learning framework. We discuss the importance of incorporating domain knowledge into the representation of materials, the construction and curation of datasets, the development of predictive property models, and the design and execution of experiments. We illustrate the application of this approach by successfully designing and validating Na- and Nd-containing phosphate-based ceramic waste forms. Finally, we discuss open challenges in such informatics-driven workflows and present an outlook for their widespread application for the cleanup of nuclear wastes.

Graphical abstract: Towards informatics-driven design of nuclear waste forms

Article information

Article type
Perspective
Submitted
09 Apr 2024
Accepted
30 Jun 2024
First published
09 Jul 2024
This article is Open Access
Creative Commons BY license

Digital Discovery, 2024,3, 1450-1466

Towards informatics-driven design of nuclear waste forms

V. I. Hegde, M. Peterson, S. I. Allec, X. Lu, T. Mahadevan, T. Nguyen, J. Kalahe, J. Oshiro, R. J. Seffens, E. K. Nickerson, J. Du, B. J. Riley, J. D. Vienna and J. E. Saal, Digital Discovery, 2024, 3, 1450 DOI: 10.1039/D4DD00096J

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