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Abstract
Although long recognized, understanding multiple lengthscale correlations in the X-ray and neutron pair distribution functions of aqueous electrolytes remains a persistent challenge. This work leverages polyoxoanions to support cation-centric coordination polyhedra in NaNO$_{3(aq)}$ and NaNO$_{2(aq)}$ with characteristic pair-wise correlations interpreted through classical molecular dynamics simulations and graph-theoretical analyses. We demonstrate that the water oxygen Ow $\cdots$ Ow correlations associated with Na$^+$-coordination polyhedra (and their oligomers) have two characteristics lengthscales. That between 3.5 - 5.5 \AA\ is associated with Ow coordinated to the same Na$^+$, while the second between 5.5 - 7.5 \AA\ is associated with Ow coordinating different Na$^+$ connected by bridging anions, corner-, edge-, or face-sharing. The ubiquitous contraction of the PDF between 5.5 - 7.5 \AA\ observed in many electrolytes derives from the loss of the many-body bulk Ow $\cdots$ Ow and growth of all combinations of Ow and On correlations that emerge due to the ion network of Na-coordination polyhedra.
Supplementary materials
Title
Supplementary Information file
Description
Containing detailed information regarding experimental setup and computational methodology as well as additional information regarding the key distributions of species supporting the interpretation of the X-ray PDF.
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Title
processing file for scattering data
Description
X-ray total scattering experimental details and data processing
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