<scp>Cr3+</scp>‐activated <scp>Li5Zn8Al5Ge9O36</scp>: A near‐infrared long‐afterglow phosphor

Xue, Fei; Hu, Yihua; Fan, Liumin; Ju, Guifang; Lv, Yang; Yang, Li

doi:10.1111/jace.14874

Cited by 36 publications

(13 citation statements)

References 36 publications

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“…Unlike the above RE and non-RE MPLs that require at least an external RE or non-RE ion as the luminescent center, interesting to mention here is that the bandlike persistent luminescence are also observed frequently in some self-activated compounds, where the luminescence is assigned to the complex groups and/or defects [168,170,177,199,215,225,. In general, the emitted spectra are ultra-broad and excitation / temperature-dependent ( Table 5, and Figure 9).…”

Section: Self-activated Bulk Mplsmentioning

confidence: 86%

Recent advances and prospects of persistent luminescent materials as inner secondary self-luminous light source for photocatalytic applications

Kang

Sun

Boutinaud

et al. 2021

Chemical Engineering Journal

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Section: Self-activated Bulk Mplsmentioning

confidence: 86%

Recent advances and prospects of persistent luminescent materials as inner secondary self-luminous light source for photocatalytic applications

Kang

Sun

Boutinaud

et al. 2021

Chemical Engineering Journal

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“…29,30 The physics of resin under pressure is similar to the seepage pr lar approaches have been used also to mod into a mold containing fiber mats. 23,[31][32][33][34][35][36][37][38] T in these cases to determine the resin flow ing times corresponding to different infilt Preceramic polycarbosilane polymers as precursors to make ceramic fibers 10,3 trix. [7][8][9]40,41 The chemical and volume ch pany ceramization of the polymer during documented in several studies.…”

mentioning

confidence: 99%

Tuning the luminescence properties of blue and far‐red dual emitting Gd₂MgTiO₆: Bi³⁺, Cr³⁺ phosphor for LED plant lamp

et al. 2021

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Blue and far-red light play a key role in plant growth, so it is necessary to develop blue and far-red dual emitting phosphors. However, the match between phosphors and plant pigments is not satisfactory. In this work, we synthesized a series of blue and far-red dual emission Gd 2 MgTiO 6 : Bi 3+ , Cr 3+ (GMTO: Bi 3+ , Cr 3+ ) phosphors and discussed the luminescence performance. The blue emission at 430 nm is ascribed to 3 P 1 → 1 S 0 transition of Bi 3+ and the far-red emission is ascribed to 4 T 2 → 4 A 2 and 2 E → 4 A 2 transitions of Cr 3+ . Notably, because of the energy competition between Cr 3+ ions and host materials, the luminescence tuning realized with the content of Cr 3+ doping. In addition, an energy-transfer performance occurred from Bi 3+ ions to Cr 3+ ions and the photoluminescence intensity of Cr 3+ can be enhanced by Bi 3+ . The pc-LEDs devices were synthesized by GMTO: Bi 3+ , Cr 3+ phosphor, and ultraviolet (UV) chips. Finally, the emission of GMTO: Bi 3+ , Cr 3+ phosphor matched well with the absorption spectra of plant pigments which indicated the potential applications in LED plant lamp.

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“…The shells of their ions are all empty or full, meaning their only possible state is the 1 S 0 state. Therefore, the intrinsic emission center of LZGG can be identified based on lattice defects, as reported for Li 5 Zn 8 Al 5 Ge 9 O 36 , Na 2 CaSn 2 Ge 3 O 12 , Ca 2 Ge 7 O 16 , Na 2− y (Zn 1− x Ga x )GeO 4 , etc. The LZGG: 1.5 % Cr 3+ and LZGG: 1.5 % Cr 3+ , 0.5 % Ti 4+ LPPs exhibited a sharp 2 E→ 4 A 2 emission at 700 nm and a broad 4 T 2 → 4 A 2 emission from approximately 720–800 nm, centered at approximately 750 nm.…”

Section: Resultsmentioning

confidence: 85%

Li₅Zn₈Ga₅Ge₉O₃₆: Cr³⁺, Ti⁴⁺: A Long Persistent Phosphor Excited in a Wide Spectral Region from UV to Red Light for Reproducible Imaging through Biological Tissue

Zhou

Dai

et al. 2019

Chemistry An Asian Journal

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Near‐infrared (NIR) long‐persistent phosphors (LPPs) have emerged as a potential solution for bio‐imaging applications over the past few years. However, there are enormous challenges regarding their in situ application based on their dependence on short‐wavelength excitation. In this paper, we report a multi‐spectral excited NIR LPP, Li5Zn8Ga5Ge9O36: 1.5 % Cr3+, 0.5 % Ti4+, which overcomes the limitations of functional processes in biological tissues and other complex systems. This LPP exhibits a high luminescent intensity and a long emission duration in the NIR region (700–800 nm). The applicability of this phosphor to tissue imaging is demonstrated experimentally. Its persistent luminescence (PersL) can easily penetrate approximately 2 mm of pork flesh. More importantly, this phosphor can be re‐charged in situ using a red LED or laser diode array to provide renewed NIR PersL for biological tissues, which is beneficial for long‐term biological tissue imaging applications with high signal‐to‐noise ratios. Systematic investigations of the nature of energy traps and PersL mechanisms are also reported in this paper.

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Cr³⁺‐activated Li₅Zn₈Al₅Ge₉O₃₆: A near‐infrared long‐afterglow phosphor

Cited by 36 publications

References 36 publications

Recent advances and prospects of persistent luminescent materials as inner secondary self-luminous light source for photocatalytic applications

Recent advances and prospects of persistent luminescent materials as inner secondary self-luminous light source for photocatalytic applications

Tuning the luminescence properties of blue and far‐red dual emitting Gd₂MgTiO₆: Bi³⁺, Cr³⁺ phosphor for LED plant lamp

Li₅Zn₈Ga₅Ge₉O₃₆: Cr³⁺, Ti⁴⁺: A Long Persistent Phosphor Excited in a Wide Spectral Region from UV to Red Light for Reproducible Imaging through Biological Tissue

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Cr3+‐activated Li5Zn8Al5Ge9O36: A near‐infrared long‐afterglow phosphor

Cited by 36 publications

References 36 publications

Recent advances and prospects of persistent luminescent materials as inner secondary self-luminous light source for photocatalytic applications

Recent advances and prospects of persistent luminescent materials as inner secondary self-luminous light source for photocatalytic applications

Tuning the luminescence properties of blue and far‐red dual emitting Gd2MgTiO6: Bi3+, Cr3+ phosphor for LED plant lamp

Li5Zn8Ga5Ge9O36: Cr3+, Ti4+: A Long Persistent Phosphor Excited in a Wide Spectral Region from UV to Red Light for Reproducible Imaging through Biological Tissue

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Cr³⁺‐activated Li₅Zn₈Al₅Ge₉O₃₆: A near‐infrared long‐afterglow phosphor

Tuning the luminescence properties of blue and far‐red dual emitting Gd₂MgTiO₆: Bi³⁺, Cr³⁺ phosphor for LED plant lamp

Li₅Zn₈Ga₅Ge₉O₃₆: Cr³⁺, Ti⁴⁺: A Long Persistent Phosphor Excited in a Wide Spectral Region from UV to Red Light for Reproducible Imaging through Biological Tissue