B-MQMAS and Si–{B} Double-Resonance NMR Studies on the Structure of Binary B2O3–SiO2 Glasses

Glasses in the system x B₂O₃·(1−x)SiO₂ (0.2≤x≤1.0) were studied using ¹¹B multiple quantum magic angle spinning NMR spectroscopy (MQMAS), ²⁹Si–\{¹¹B\} rotational echo adiabatic passage double-resonance and ²⁹Si–\}¹¹B\{ CP heteronuclear correlation spectroscopy. The results can be quantitatively interpreted in terms of a phase separation of the borosilicate glasses into a virtually SiO₂-free B₂O₃ phase and a mixed borosilicate phase. While the MQMAS spectra allowed the site speciation and resolution of at least two different ¹¹B resonances, attributable to BO_3/2 units consumed in boroxol rings, BO_3/2 units connecting the boroxol rings and BO_3/2 units involved in B–O–Si linkages, the analysis of the double-resonance data further elucidated the structure of the mixed borosilicate phase. The results indicate that only a fraction of 0.48 mol B₂O₃ can be accommodated per mole SiO₂, building a mixed borosilicate network.