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Article Abstract
This study explores the structural, optical, and electronic properties of NaCa(BO):Tb phosphors, with and without K co-doping, via experimental techniques and Density Functional Theory (DFT). X-ray diffraction confirmed Tb and K incorporation without phase change. Optimal green photoluminescence at 542 nm occurred at 2 wt% Tb; higher doping led to quenching due to multipolar interactions. While Tb enhanced luminescence, K co-doping reduced it, likely from charge imbalance and defect formation. DFT results aligned with experiments, showing minor lattice distortion from Tb and structural instability from K, reflected in a slight band gap reduction (from 5.00 eV to 4.97 eV). Bader charge and formation energy analyses confirmed K does not fully compensate for charge imbalance, contributing to non-radiative centers and reduced luminescence. CIE analysis indicated tunable emission between green and yellow-green. These findings reveal K impacts beyond charge compensation, offering insights for phosphor design in solid-state lighting.
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| http://dx.doi.org/10.1016/j.apradiso.2025.112038 | DOI Listing |
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