Elizabeth Tsekrekas scite author profile

The structures of glasses in the lithium-bismuth orthoborate composition range deviate significantly from the short-range order structure of the two crystalline end-members. Although binary Li 3 BO 3 and BiBO 3 are solely of comprised trigonal orthoborate anions, all glasses formed by their combination contain four-coordinated borate tetrahedra. We analyze the structure of ( 75glasses in increments of x = 5, with 11 B magic-angle spinning nuclear magnetic resonance (NMR), infrared (IR), and Raman spectroscopy. For the full series, the oxygen-to-boron ratio remains constant at O/B = 3:1. NMR quantifies an increase in the fraction of tetrahedral boron with increasing bismuth oxide content. Evolution of the mid-IR profile suggests multiple types of tetrahedral boron sites. Raman spectroscopy reveals that Bi 2 O 3 tends to cluster within the lithium borate matrix when initially introduced and that this behavior transforms into a bismuthate network with increasing bismuth oxide content. In all cases, mixed Bi-O-B linkages are observed. The dual role of bismuth as network modifier and network former is likewise observed in the far IR. The glass transition temperature continuously increases with bismuth oxide content; however, the glass stability displays a maximum in the multicomponent glass of x = 40.

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Luminescence-site symmetry correlations in Dy3+ doped alkali-alkaline earth orthoborates of the type XZBO3 with X = Li, Na, K and Z = Mg, Ca, Ba

Herrmann

Tsekrekas

Möncke

et al. 2022

Journal of Luminescence

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