The impact of stoichiometry on the initial steps of crystal formation: Stability and lifetime of charged triple-ion complexes

Janou A Koskamp, Sergej Y M H Seepma, Vincent F D Peters, Dimitrios Toroz, Devis Di Tommaso, Mariëtte Wolthers

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Minerals form in natural systems from solutions with varying ratios of their lattice ions, yet non-stoichiometric conditions have generally been overlooked in investigations of new formation (nucleation) of ionic crystals. Here, we investigated the influence of cation:anion ratio in the solution on the initial steps of nucleation by studying positively and negatively charged triple ion complexes and subsequent particle size evolution. Our model systems are carbonates and sulfates of calcium and barium, as it was recently shown that solution stoichiometry affects the timing and rate of their nucleation. Molecular dynamics (MD) simulations and dynamic light scattering (DLS) flow experiments show that nucleation correlates with the stability and lifetime of the initial complexes, which were significantly impacted by the cation:anion stoichiometry and ion type. Specifically, (Formula presented.) was found to have higher association constants and its lifetime was twofold longer than (Formula presented.). Similar trends were observed for (Formula presented.) and (Formula presented.). Contrastingly, for (Formula presented.), (Formula presented.) was found to have lower association constants and its lifetime was shorter than (Formula presented.). These trends in stability and lifetime follow the same asymmetrical behaviour as observed experimentally for particle formation using techniques like DLS. This suggests a causal relationship between the stability and lifetime of the initial charged complexes and the nucleation under non-stoichiometric conditions.

Original languageEnglish
Article numbere202303860
JournalChemistry-A European Journal
Volume30
Issue number20
Early online date8 Dec 2023
DOIs
Publication statusPublished - Apr 2024

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