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Understanding the mechanisms of anisotropic dissolution in metal oxides by applying radiolysis simulations to liquid-phase TEM. | LitMetric

Understanding the mechanisms of anisotropic dissolution in metal oxides by applying radiolysis simulations to liquid-phase TEM.

Proc Natl Acad Sci U S A

Physical and Computational Sciences Directorate, Pacific Northwest National Laboratory, Richland, WA 99352.

Published: June 2023

AI Article Synopsis

  • * Researchers used a technique called liquid-phase transmission electron microscopy alongside simulations to study how acidic and reductive processes affect the dissolution of akaganeite nanorods.
  • * Results showed that adjusting pH buffers and chloride ions can control where and how the nanorods dissolve, highlighting a new method to explore mineral dissolution impacts on metal cycling and nanomaterial development.

Article Abstract

Iron-based redox-active minerals are ubiquitous in soils, sediments, and aquatic systems. Their dissolution is of great importance for microbial impacts on carbon cycling and the biogeochemistry of the lithosphere and hydrosphere. Despite its widespread significance and extensive prior study, the atomic-to-nanoscale mechanisms of dissolution remain poorly understood, particularly the interplay between acidic and reductive processes. Here, we use in situ liquid-phase-transmission electron microscopy (LP-TEM) and simulations of radiolysis to probe and control acidic versus reductive dissolution of akaganeite (β-FeOOH) nanorods. Informed by crystal structure and surface chemistry, the balance between acidic dissolution at rod tips and reductive dissolution at rod sides was systematically varied using pH buffers, background chloride anions, and electron beam dose. We find that buffers, such as bis-tris, effectively inhibited dissolution by consuming radiolytic acidic and reducing species such as superoxides and aqueous electrons. In contrast, chloride anions simultaneously suppressed dissolution at rod tips by stabilizing structural elements while promoting dissolution at rod sides through surface complexation. Dissolution behaviors were systematically varied by shifting the balance between acidic and reductive attacks. The findings show LP-TEM combined with simulations of radiolysis effects can provide a unique and versatile platform for quantitatively investigating dissolution mechanisms, with implications for understanding metal cycling in natural environments and the development of tailored nanomaterials.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10266062PMC
http://dx.doi.org/10.1073/pnas.2101243120DOI Listing

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