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Atomic-scale characterisation of sodium aluminosilicate hydrates (N-A-S-H) and Mg-substituted N(-M)-A-S-H using XANES

Xinyuan Ke, Vahiddin Alperen Baki, Alexander I. Large, Georg Held, Brant Walkley, Jiaqi Li

2022Applied Geochemistry12 citationsDOIOpen Access PDF

Abstract

The chemical structures of aluminosilicate hydrates presented in alkali-activated geopolymer materials underpin their performances. Mg-substituted sodium aluminosilicate hydrates (N(-M)-A-S-H) are likely to be present in alkali-activated geopolymer materials prepared using MgO-containing precursors, however, their atomic-level structures remain unclear. The lack of such knowledge made it challenging to identify and distinguish N(-M)-A-S-H from complex alkali-activated geopolymer systems (i.e., alkali-activated slag, alkali-activated Mg-rich minerals), and therefore brought challenges in understanding and predicting their durability. This study characterised for the first time the atomic structures of the synthetic N(-M)-A-S-H gels, prepared through ion-exchange or co-synthesis, using X-ray absorption near-edge spectroscopy (XANES) at Si, Al and Mg K-edge. The results suggest that the substitution of Mg in the extra-framework locations of the alkali aluminosilicate hydrates (N-A-S-H) leads to negligible changes in the coordination environments of the aluminosilicate framework. However, the Mg coordination environment is distinguishably different from other Mg-containing phases in the systems, e.g., hydrotalcite. The Mg K-edge XANES of N(-M)-A-S-H shows a 0.8–1.2 eV shift compared with hydrotalcite. The results presented in this study can be used as the fingerprint to probe the presence of N(-M)-A-S-H in alkali-activated geopolymer materials containing Mg element.

Topics & Concepts

XANESAluminosilicateSodium aluminosilicateGeopolymerAlkali metalHydrotalciteInorganic chemistryMaterials scienceSodaliteChemistryMineralogyZeoliteSpectroscopyCatalysisOrganic chemistryComposite materialPhysicsQuantum mechanicsCompressive strengthConcrete and Cement Materials ResearchClay minerals and soil interactionsLayered Double Hydroxides Synthesis and Applications