Issue 32, 2024

Exploring Cr and molten salt interfacial interactions for molten salt applications

Abstract

Molten salts play an important role in various energy-related applications such as high-temperature heat transfer fluids and reaction media. However, the extreme molten salt environment causes the degradation of materials, raising safety and sustainability challenges. A fundamental understanding of material–molten salt interfacial evolution is needed. This work studies the transformation of metallic Cr in molten 50/50 mol% KCl–MgCl2via multi-modal in situ synchrotron X-ray nano-tomography, diffraction and spectroscopy combined with density functional theory (DFT) and ab initio molecular dynamics (AIMD) simulations. Notably, in addition to the dissolution of Cr in the molten salt to form porous structures, a δ-A15 Cr phase was found to gradually form as a result of the metal–salt interaction. This phase change of Cr is associated with a change in the coordination environment of Cr at the interface. DFT and AIMD simulations provide a basis for understanding the enhanced stability of δ-A15 Cr vs. bcc Cr, by revealing their competitive phase thermodynamics at elevated temperatures and probing the interfacial behavior of the molten salt at relevant facets. This study provides critical insights into the morphological and chemical evolution of metal–molten salt interfaces. The combination of multimodal synchrotron analysis and atomic simulation also offers an opportunity to explore a broader range of systems critical to energy applications.

Graphical abstract: Exploring Cr and molten salt interfacial interactions for molten salt applications

Supplementary files

Article information

Article type
Paper
Submitted
14 Mar 2024
Accepted
13 May 2024
First published
22 May 2024

Phys. Chem. Chem. Phys., 2024,26, 21342-21356

Exploring Cr and molten salt interfacial interactions for molten salt applications

X. Liu, Y. Liu, L. D. Gibson, M. Ge, D. Olds, D. Leshchev, J. Bai, A. M. Plonka, P. Halstenberg, H. Zhong, S. Ghose, C. Lin, X. Zheng, X. Xiao, W. Lee, S. Dai, G. D. Samolyuk, V. S. Bryantsev, A. I. Frenkel and Y. K. Chen-Wiegart, Phys. Chem. Chem. Phys., 2024, 26, 21342 DOI: 10.1039/D4CP01122H

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