Designing multi-mode optical thermometers via the thermochromic LaNbO4: Bi3+/Ln3+ (Ln= Eu, Tb, Dy, Sm) phosphors
Abstract LaNbO 4: 1.0% Bi 3+/x% Ln 3+(Ln= Eu, Tb, Dy, Sm) phosphors, which can emit
both emissions of Bi 3+ and Ln 3+ ions, were prepared by a solid-state reaction technology …
both emissions of Bi 3+ and Ln 3+ ions, were prepared by a solid-state reaction technology …
Ba 3 LuGa 2 O 7.5: Bi 3+ phosphors with potential application in full-spectrum WLEDs and temperature sensing
R Liu, H Wu, S Wang, W Yuan, S Zhang… - Journal of Materials …, 2023 - pubs.rsc.org
In this work, a series of novel, broadband, cyan-green emitting Ba3LuGa2O7. 5: Bi3+
phosphors are prepared to bridge the cyan gap through a simple high-temperature solid …
phosphors are prepared to bridge the cyan gap through a simple high-temperature solid …
A novel multi-center activated single-component white light-emitting phosphor for deep UV chip-based high color-rendering WLEDs
Z Zhang, J Li, N Yang, Q Liang, Y Xu, S Fu… - Chemical Engineering …, 2020 - Elsevier
Single-component white light-emitting phosphors for phosphors-converted WLEDs are a hot
spot of solid-state lighting field. Dy 3+ is a promising candidate for white light generation in …
spot of solid-state lighting field. Dy 3+ is a promising candidate for white light generation in …
Novel orange-red emitting Sr3Ga2Ge4O14: Sm3+ phosphors with high color purity for red-backlight display and white LEDs
X Li, J Ding, Z Tang, X Lin, H Dong, A Wu, L Jiang - Ceramics International, 2023 - Elsevier
Abstract Novel langasite family (Sr 3 Ga 2 Ge 4 O 14: Sm 3+) phosphors with orange-red
emitting were successfully synthesized via a conventional high-temperature solid-phase …
emitting were successfully synthesized via a conventional high-temperature solid-phase …
Recent development of aluminate materials for solid state lighting
Different phosphors emit different wavelengths of light depending upon the doped impurity
ions. They have various applications in the technological fields. Therefore, the majority of …
ions. They have various applications in the technological fields. Therefore, the majority of …
Tunable photoluminescence of LiNbO3: RE3+ (RE3+= Dy3+, Sm3+, Dy3+/Sm3+) single-phase phosphors for warm white LEDs
Z Min, Q Zeng, S Chen, Y Qin, C Yao - Journal of Alloys and Compounds, 2022 - Elsevier
LiNbO 3 single-phase phosphors with varying single-doping and co-doping contents of Dy
3+ and Sm 3+ ions were fabricated via the solid phase reaction. All the X-ray diffractions of …
3+ and Sm 3+ ions were fabricated via the solid phase reaction. All the X-ray diffractions of …
Constructing ultra-sensitive dual-mode optical thermometers: Utilizing FIR of Mn4+/Eu3+ and lifetime of Mn4+ based on double perovskite tellurite phosphor
L Li, G Tian, Y Deng, Y Wang, Z Cao, F Ling, Y Li… - Optics …, 2020 - opg.optica.org
A strategy of optical temperature sensing was developed by using various thermal
quenching of Mn4+ and Eu3+ for double perovskite tellurite phosphor in optical …
quenching of Mn4+ and Eu3+ for double perovskite tellurite phosphor in optical …
Activation of zirconia nanophosphors with Eu3+ to demonstrate multifunctional optical applications
Abstract Pristine ZrO 2 and Eu 3+ activated ZrO 2 nanophosphors were synthesized by urea
assisted solution combustion method. The synthesized nanophosphors were characterized …
assisted solution combustion method. The synthesized nanophosphors were characterized …
Preparation and photoluminescence properties of novel orange-red La3Ga5SiO14: Sm3+ phosphors
NN Zhang, YG Yang, XY Yan, MQ Wang, YY Zhang… - Ceramics …, 2023 - Elsevier
In the present work, orange-red Sm 3+ doped La 3 Ga 5 SiO 14 phosphors were
successfully formed through high temperature solid state method at 1350° C. The phase …
successfully formed through high temperature solid state method at 1350° C. The phase …
A novel orange-emitting LaBMoO6: Sm3+ phosphor
S Hu, S Lu, Y Hong, A Yao, B Wang, W Li, B Chu… - Ceramics …, 2022 - Elsevier
Sm 3+ doped LaBMoO 6 phosphors were prepared by using the solid-state reaction method.
The microstructure, morphology, chemical element composition, absorption, luminescent …
The microstructure, morphology, chemical element composition, absorption, luminescent …