Article Dans Une Revue Physical Chemistry Chemical Physics Année : 2025

High-temperature CO2 capture by Li4SiO4: IR spectroscopic evidence for the double shell model.

Résumé

This study investigates the mechanisms of CO₂ capture by Li₄SiO₄ employing in-situ Fourier Transform Infrared Spectroscopy (FT-IR) combined with multivariate data analysis, with a particular attention given to the influence of structural modifications derived from natural diatomite on the CO₂ sorption performance of Li₄SiO₄. Three samples were examined: a reference Li4SiO4 material synthesized from pure SiO₂ (SiO₂-LS), a stoichiometric mixture using calcined diatomite (ND-LS) and an over-stoichiometric sample containing 10% calcined diatomite (10% ND-LS). FTIR analysis confirmed the formation of carbonate species during CO₂ uptake. Chemometric analysis using Principal Component Analysis (PCA) and Multivariate Curve Resolution–Alternating Least Squares (MCR-ALS) allowed identifying the successive formation of two distinct carbonate species (Species 1 and Species 2), supporting the double-shell carbonation model. In ND-derived samples, a distinct band at 1140 cm-¹, attributed to the symmetric stretching vibration (ν₁) of a carbonate species associated with magnesium carbonates, was identified. The presence of surface MgCO₃ associated to species 1 in ND-derived samples was found to enhance CO₂ capture kinetics by facilitating carbonate layer formation through interfacial diffusion pathways. This study provides valuable insights into the carbonation mechanisms of Li₄SiO₄, demonstrating that calcined diatomite improves CO₂ uptake efficiency and opening new perspectives for the optimization of lithium silicate-based CO₂ sorbents through targeted compositional modifications.

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Dates et versions

hal-05199160 , version 1 (10-11-2025)

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Hoda Al Assaad, Khedidja Messabih, Nadia Bendjaballah-Lalaoui, Youcef Boucheffa, Frédéric Thibault-Starzyk, et al.. High-temperature CO2 capture by Li4SiO4: IR spectroscopic evidence for the double shell model.. Physical Chemistry Chemical Physics, 2025, 27 (48), pp.26119-26130. ⟨10.1039/D5CP02957K⟩. ⟨hal-05199160⟩
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