Influence of Optical Basicity on Cu+ Luminescence in Aluminosilicate Oxyfluoride Glasses

Abstract: Cu +-activated aluminosilicate oxyfluoride glasses were successfully synthesized by melt-quenching method in air by adding Al powder as a reducing agent. Their luminescent properties were studied systematically via optical absorption, excitation, and emission spectra. Upon UV irradiation, a blue-emitting band of Cu + was observed in glass with relatively low optical basicity. By increasing the optical basicity of glass, obvious redshifts of excitation (290 → 313 nm) and emission (435 →470 nm) peaks were obtain… Show more

“…2(a), the emission wavelengths are mainly concentrated at 451 nm, 470 nm, 520 nm, 598 nm, and 695 nm. 32,33 As shown in Fig. 2(b), the glass has a significant emission at 350-600 nm under the excitation of 254 nm.…”

In situ precipitation of Cs₃Cu₂I₅ nanocrystals in inorganic glass with long-term water stability for X-ray imaging

“…2(a), the emission wavelengths are mainly concentrated at 451 nm, 470 nm, 520 nm, 598 nm, and 695 nm. 32,33 As shown in Fig. 2(b), the glass has a significant emission at 350-600 nm under the excitation of 254 nm.…”

In situ precipitation of Cs₃Cu₂I₅ nanocrystals in inorganic glass with long-term water stability for X-ray imaging

Dysprosium ion effect on the structural, optical, and dielectric characteristics of epoxy resin polymer composite panels for use as a transducer material

The effect of substrate thickness on the fluorescence of single-doped Cu+ glass prepared by ion exchange