Heterovalent Zr4+/Nb5+‐Cosubstituted Negative Thermal Expansion Luminescent Materials with Anti‐Thermal Quenching Luminescence
B Fu, H Yan, R Li, L Feng, Y Yu, G Gong… - Laser & Photonics …, 2024 - Wiley Online Library
Rare earth luminescent materials based on negative thermal expansion (NTE) have
achieved thermally enhanced photoluminescence, but these materials typically exhibit …
achieved thermally enhanced photoluminescence, but these materials typically exhibit …
Simultaneous negative thermal quenching luminescence of upconversion and downshifting processes in Al 2 (WO 4) 3: Yb/Er phosphors with low thermal expansion
H Yan, R Li, L Feng, Y Yu, G Gong, H Huang… - Journal of Materials …, 2024 - pubs.rsc.org
Avoiding thermal quenching (TQ) is still a huge challenge for the practical application of
lanthanide (Ln3+)-doped luminescence materials. Herein, a novel Al2 (WO4) 3: Yb3+/Er3+ …
lanthanide (Ln3+)-doped luminescence materials. Herein, a novel Al2 (WO4) 3: Yb3+/Er3+ …
Study on the properties of Sm3+-Doped CaTbAl3O7 phosphors
R Cao, M Wu, B Lan, T Huang, J Nie, F Cheng… - Journal of …, 2025 - Elsevier
New single phase and adjustable emission phosphors have attracted a lot of attention
because of the good luminous properties. In this work, Sm 3+ doped CaTbAl 3 O 7 …
because of the good luminous properties. In this work, Sm 3+ doped CaTbAl 3 O 7 …
Simultaneously tuning the luminescent color and realizing an optical temperature sensor by negative thermal expansion in Sc 2 (WO 4) 3: Tb/Eu phosphors
B Fu, H Yan, R Li, Z Liao, B Qiu, G Gong, H Huang… - Dalton …, 2024 - pubs.rsc.org
At present, many researchers are focusing on trivalent lanthanide (Ln3+)-doped thermally
enhanced upconversion luminescent (UCL) materials with negative thermal expansion …
enhanced upconversion luminescent (UCL) materials with negative thermal expansion …
Simultaneous Thermal Enhancement of Upconversion and Downshifting Luminescence by Negative Thermal Expansion in Nonhygroscopic ZrSc(WO4)2PO4:Yb/Er …
J Liao, Z Han, F Lin, B Fu, G Gong, H Yan… - Inorganic …, 2023 - ACS Publications
Thermal quenching (TQ) is still a critical challenge for lanthanide (Ln3+)-doped luminescent
materials. Herein, we report the novel negative thermal expansion nonhygroscopic …
materials. Herein, we report the novel negative thermal expansion nonhygroscopic …
Thermally enhanced luminescence and photoluminescence properties of green-emitting Lu2 (1-x) Tb2x (WO4) 3 phosphors
B Bai, N Huang, G Lu, W Yao, H Zhao, M Yu, C Cao… - Ceramics …, 2024 - Elsevier
Abstract A series of Lu 2 (1-x) Tb 2x (WO 4) 3 (x= 0.00–1.00) white powder materials were
prepared by a high-temperature solid-phase method. The crystal structure, microscopic …
prepared by a high-temperature solid-phase method. The crystal structure, microscopic …
Ba2LuNbO6:Er3+,Yb3+ up‐conversion phosphors for dual‐mode thermometry based on fluorescence intensity ratio
Y Chen, J Chen, Y Luo, Q Wang… - Journal of the American …, 2024 - Wiley Online Library
Fluorescence intensity ratio (FIR) thermometry has been regarded as new optical
thermometry because of its faster response, higher sensitivity, and accuracy. However …
thermometry because of its faster response, higher sensitivity, and accuracy. However …
A self-referenced fluorescence intensity ratio optical temperature sensing materials K3YSi2O7: Bi3+/Sm3+ based on multi-strategy combination
Q Wang, S Zhao, J Wen, X Huang, C Wei, Q Xia… - Ceramics …, 2023 - Elsevier
Optical temperature sensing based on fluorescence intensity ratio (FIR) technology has
become a potential temperature measurement method due to its fast response, non-invasive …
become a potential temperature measurement method due to its fast response, non-invasive …
Multi-dimensional tailoring of the thermometric behaviors of Er3+/Yb3+-codoped Y2W3O12 polychromatic upconverting microparticles for multi-mode visual optical …
To combat the thermal quenching and inadequate sensitivities of luminous materials, the Y
1.98–2x W 3 O 12: 0.02 Er 3+/2xYb 3+(YWO: Er 3+/2xYb 3+; 0.01≤ x≤ 0.11) microparticles …
1.98–2x W 3 O 12: 0.02 Er 3+/2xYb 3+(YWO: Er 3+/2xYb 3+; 0.01≤ x≤ 0.11) microparticles …
Multi‐mode temperature sensing of Lu2WO6:Er3+,Yb3+ up‐conversion materials
M Feng, L Li, J Guo, Q Wang, T Pang… - Journal of the American …, 2024 - Wiley Online Library
To develop multi‐mode fluorescence thermometer with high performance, Lu2WO6: Er3+,
Yb3+ materials were successfully designed and prepared. Under 980 nm excitation, the …
Yb3+ materials were successfully designed and prepared. Under 980 nm excitation, the …