Litcius/Paper detail

Sub-Nanometer-Range Structural Effects From Mg<sup>2+</sup> Incorporation in Na-Based Borosilicate Glasses Revealed by Heteronuclear NMR and MD Simulations

Peng Lv, Baltzar Stevensson, Renny Mathew, Tieshan Wang, Mattias Edén

2024The Journal of Physical Chemistry B8 citationsDOIOpen Access PDF

Abstract

Magic-angle-spinning (MAS) nuclear magnetic resonance (NMR) experiments and molecular dynamics (MD) simulations were employed to investigate Na2O–B2O3–SiO2 and MgO–Na2O–B2O3–SiO2 glass structures up to ≈0.3 nm. This encompassed the {Na[p]}, {Mg[p]}, and {B[3], B[4]} speciations and the {Si, B[p], M[p]}–BO and {Si, B[p], M[p]}–NBO interatomic distances to the bridging oxygen (BO) and nonbridging oxygen (NBO) species, where the superscript indicates the coordination number. The MD simulations revealed the dominance of Mg[5] coordinations, as mirrored in average Mg2+ coordination numbers in the 5.2–5.5 range, which are slightly lower than those of the larger Na+ cation but with a narrower coordination distribution stemming from the higher cation field strength (CFS) of the smaller divalent Mg2+ ion. We particularly aimed to elucidate such Na+/Mg2+ CFS effects, which primarily govern the short-range structure but also the borosilicate (BS) glass network order, where both MD simulations and heteronuclear double-resonance 11B/29Si NMR experiments revealed a reduction of B[4]–O–Si linkages relative to B[3]–O–Si upon Mg2+-for-Na+ substitution. These effects were quantified and discussed in relation to previous literature on BS glasses, encompassing the implications for simplified structural models and descriptions thereof.

Topics & Concepts

Borosilicate glassHeteronuclear moleculeCoordination numberNatural bond orbitalMagic angle spinningChemistryMolecular dynamicsCrystallographyNMR spectra databaseDivalentIonAnalytical Chemistry (journal)Nuclear magnetic resonance spectroscopySpectral lineStereochemistryDensity functional theoryComputational chemistryPhysicsAstronomyChromatographyOrganic chemistryGlass properties and applicationsLuminescence Properties of Advanced MaterialsAdvanced NMR Techniques and Applications
Sub-Nanometer-Range Structural Effects From Mg<sup>2+</sup> Incorporation in Na-Based Borosilicate Glasses Revealed by Heteronuclear NMR and MD Simulations | Litcius