Bi3+ ions doped double perovskite Ca2MgWO6 phosphor for yellow light emission

[1]  Yang Wang,et al.  High-brightness all-polymer stretchable LED with charge-trapping dilution , 2022, Nature.

[2]  Chongfeng Guo,et al.  Ab initio of Broadband NIR Garnet Phosphor Ca4ZrGe3O12: Cr3+, Yb3+ for NIR pc-LEDs Applications , 2022, Materials Chemistry Frontiers.

[3]  Shufang Zhang,et al.  Luminescence property improvement and controllable color regulation of a novel Bi3+ doped Ca2Ta2O7 green phosphor through charge compensation engineering and energy transfer. , 2021, Physical chemistry chemical physics : PCCP.

[4]  L. Li,et al.  Excellent cryogenic magnetocaloric performances in ferromagnetic Sr2GdNbO6 double perovskite compound , 2021 .

[5]  Liping Chen,et al.  Up‐conversion and temperature sensing properties of Na 2 GdMg 2 (VO 4 ) 3 :Yb 3+ ,Er 3+ phosphors , 2021, Journal of the American Ceramic Society.

[6]  Hai Guo,et al.  Y4GeO8:Er3+,Yb3+ up-conversion phosphors for optical temperature sensor based on FIR technique , 2021, Journal of Rare Earths.

[7]  Z. Shen,et al.  Strong self-trapping by deformation potential limits photovoltaic performance in bismuth double perovskite , 2021, Science Advances.

[8]  Ge Wang,et al.  Mechanism of enhanced energy storage density in AgNbO3-based lead-free antiferroelectrics , 2021, Nano Energy.

[9]  Hai Guo,et al.  A three-mode self-referenced optical thermometry based on up-conversion luminescence of Ca2MgWO6:Er3+,Yb3+ phosphors , 2020, Chemical Engineering Journal.

[10]  Quansheng Wu,et al.  A novel narrow-band blue-emitting phosphor of Bi3+-activated Sr3Lu2Ge3O12 based on a highly symmetrical crystal structure used for WLEDs and FEDs , 2020 .

[11]  Chenggang Zhou,et al.  Anti‐Thermal‐Quenching Bi3+ Luminescence in a Cyan‐Emitting Ba2ZnGe2O7:Bi Phosphor Based on Zinc Vacancy , 2020, Laser & Photonics Reviews.

[12]  Huafeng Liu,et al.  Low-dose real-time X-ray imaging with nontoxic double perovskite scintillators , 2020, Light, science & applications.

[13]  Liangliang Zhang,et al.  Efficient Super Broadband NIR Ca2LuZr2Al3O12:Cr3+,Yb3+ Garnet Phosphor for pc‐LED Light Source toward NIR Spectroscopy Applications , 2020, Advanced Optical Materials.

[14]  Wei Feng,et al.  Ratiometric upconversion nanothermometry with dual emission at the same wavelength decoded via a time-resolved technique , 2020, Nature Communications.

[15]  Hai Guo,et al.  Tb 3+ ‐doped transparent BaGdF 5 glass‐ceramics scintillator for X‐ray detector , 2020 .

[16]  R. Xie,et al.  Two-Site Occupation for Exploring Ultra-Broadband Near-Infrared Phosphor—Double-Perovskite La2MgZrO6:Cr3+ , 2019, Chemistry of Materials.

[17]  Fugen Wu,et al.  A red phosphor Mg3Y2Ge3O12: Bi3+, Eu3+ with high brightness and excellent thermal stability of luminescence for white light-emitting diodes , 2019, Journal of Luminescence.

[18]  Dandan Wang,et al.  Cr3+‐Doped Broadband NIR Garnet Phosphor with Enhanced Luminescence and its Application in NIR Spectroscopy , 2019, Advanced Optical Materials.

[19]  Z. Xia,et al.  Emerging ultra-narrow-band cyan-emitting phosphor for white LEDs with enhanced color rendition , 2019, Light, science & applications.

[20]  Hai Guo,et al.  Adjustable emission and energy transfer process in BaGd2O4:Bi3+,Eu3+ phosphors , 2019, Journal of Luminescence.

[21]  K. Poeppelmeier,et al.  Designing an Excellent Deep-Ultraviolet Birefringent Material for Light Polarization. , 2018, Journal of the American Chemical Society.

[22]  Guangda Niu,et al.  Efficient and stable emission of warm-white light from lead-free halide double perovskites , 2018, Nature.

[23]  Da Li,et al.  Synthesis and Luminescence Properties of Bi3+-Activated K2MgGeO4: A Promising High-Brightness Orange-Emitting Phosphor for WLEDs Conversion. , 2018, Inorganic chemistry.

[24]  Z. Xia,et al.  Next‐Generation Narrow‐Band Green‐Emitting RbLi(Li3SiO4)2:Eu2+ Phosphor for Backlight Display Application , 2018, Advanced materials.

[25]  Mingmei Wu,et al.  Dual-emissions with energy transfer from the phosphor Ca14Al10Zn6O35:Bi3+,Eu3+ for application in agricultural lighting , 2017 .

[26]  Zhao‐Qing Liu,et al.  A bright and moisture-resistant red-emitting Lu3Al5O12:Mn4+,Mg2+ garnet phosphor for high-quality phosphor-converted white LEDs , 2017 .

[27]  Zhiyang Luo,et al.  A double perovskite Ca2MgWO6:Bi3+ yellow-emitting phosphor: Synthesis and luminescence properties , 2017 .

[28]  Le Zhang,et al.  Structure evolution and delayed quenching of the double perovskite NaLaMgWO6:Eu3+ phosphor for white LEDs , 2016 .

[29]  Zhiyang Luo,et al.  Synthesis, energy transfer and luminescence properties of Ca2MgWO6:Sm3+, Bi3+ phosphor , 2016 .

[30]  Zhaohui Huang,et al.  New garnet structure phosphors, Lu3−xYxMgAl3SiO12:Ce3+ (x = 0–3), developed by solid solution design , 2016 .

[31]  Angela S. Wochnik,et al.  Narrow-band red-emitting Sr[LiAl₃N₄]:Eu²⁺ as a next-generation LED-phosphor material. , 2014, Nature materials.

[32]  Chenglong Zhao,et al.  Thermally stable luminescence and structure evolution of (K, Rb)BaPO4:Eu2+ solid-solution phosphors , 2014 .

[33]  W. Zhuang,et al.  Effect of MgF2-H3BO3 flux on the properties of (Ce,Tb)MgAl11O19 phosphor , 2010 .

[34]  Weili Lu,et al.  Co-precipitation synthesis and characterization of Bi3+, Eu3+ co-doped nanocrystal Gd2WO6 phosphors. , 2010, Journal of nanoscience and nanotechnology.

[35]  D. Jeon,et al.  Improvement of electroluminescent property of blue LED coated with highly luminescent yellow-emitting phosphors , 2009 .