This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Nguyen TMH, Ton TP, Anh NDQ. Eu-activated strontium-barium silicate: a positive solution for improving luminous efficacy and color uniformity of white light-emitting diodes. Mater Sci Pol. 2021;38:594–600.NguyenTMHTonTPAnhNDQEu-activated strontium-barium silicate: a positive solution for improving luminous efficacy and color uniformity of white light-emitting diodesMater Sci Pol.20213859460010.2478/msp-2020-0069Search in Google Scholar
Nguyen TMH, Ton TP, Anh NDQ, Thanh TT. Triple-layer remote phosphor structure: a novel option for the enhancement of WLEDs’ color quality and luminous flux. Mater Sci Pol. 2021;38:654–660.NguyenTMHTonTPAnhNDQThanhTTTriple-layer remote phosphor structure: a novel option for the enhancement of WLEDs’ color quality and luminous fluxMater Sci Pol.20213865466010.2478/msp-2020-0076Search in Google Scholar
Anh NDQ, Ngoc HV. Building superior lighting properties for WLEDs utilizing two-layered remote phosphor configurations. Mater Sci Pol. 2020;38:493–501.AnhNDQNgocHVBuilding superior lighting properties for WLEDs utilizing two-layered remote phosphor configurationsMater Sci Pol.20203849350110.2478/msp-2020-0044Search in Google Scholar
Anh NDQ, Vinh NH, Lee H-Y. Effect of red-emitting Sr2.41F2.59B20.03O74.8:Eu0.12,Sm0.048 phosphor on color rendering index and luminous efficacy of white LEDs. Curr Opt Photon. 2017;1:118–24.AnhNDQVinhNHLeeH-YEffect of red-emitting Sr2.41F2.59B20.03O74.8:Eu0.12,Sm0.048 phosphor on color rendering index and luminous efficacy of white LEDsCurr Opt Photon.201711182410.3807/COPP.2017.1.2.118Search in Google Scholar
Anh NDQ, Vinh NH, Lee H-Y, Lee H-Y. Gaussian decomposition method in designing a freeform lens for an LED fishing/working lamp. Curr Opt Photon. 2017;1:233–8.AnhNDQVinhNHLeeH-YLeeH-YGaussian decomposition method in designing a freeform lens for an LED fishing/working lampCurr Opt Photon.201712338Search in Google Scholar
Jiang P-Q, Peng Y, Mou Y, Cheng H, Chen MX, Liu S. Thermally stable multi-color phosphor-in-glass bonded on flip-chip UV-LEDs for chromaticity-tunable WLEDs. Appl Opt. 2017;56:7921–6.JiangP-QPengYMouYChengHChenMXLiuSThermally stable multi-color phosphor-in-glass bonded on flip-chip UV-LEDs for chromaticity-tunable WLEDsAppl Opt.2017567921610.1364/AO.56.00792129047779Search in Google Scholar
Yang X, Chai CF, Chen JC, Zheng SS, Chen C. Single 395 nm excitation warm WLED with a luminous efficiency of 104.86 lm/W and a color rendering index of 90.7. Opt Mater Express. 2019;9:4273–86.YangXChaiCFChenJCZhengSSChenCSingle 395 nm excitation warm WLED with a luminous efficiency of 104.86 lm/W and a color rendering index of 90.7Opt Mater Express.2019942738610.1364/OME.9.004273Search in Google Scholar
Yuce H, Guner T, Balci S, Demir MM. Phosphor-based white LED by various glassy particles: control over luminous efficiency. Opt Lett. 2019;44:479–82.YuceHGunerTBalciSDemirMMPhosphor-based white LED by various glassy particles: control over luminous efficiencyOpt Lett.2019444798210.1364/OL.44.00047930702658Search in Google Scholar
Ton TP, Phuong LNT, Le VT, Anh NDQ, Liao H-Y, Luo G-F, et al. Enhancing color quality of WLEDs with dual-layer remote phosphor geometry. Mater Sci Pol. 2021;38:667–74.TonTPPhuongLNTLeVTAnhNDQLiaoH-YLuoG-FEnhancing color quality of WLEDs with dual-layer remote phosphor geometryMater Sci Pol.2021386677410.2478/msp-2020-0070Search in Google Scholar
Luo G-F, Loan NTP, Tho LV, Anh NDQ, Lee H-Y. Enhancement of color quality and luminous flux for remote-phosphor LEDs with red-emitting CaMgSi2O6:Eu2+,Mn2+. Mater Sci Pol. 2020;38:409–15.LuoG-FLoanNTPThoLVAnhNDQLeeH-YEnhancement of color quality and luminous flux for remote-phosphor LEDs with red-emitting CaMgSi2O6:Eu2+,Mn2+Mater Sci Pol.2020384091510.2478/msp-2020-0045Search in Google Scholar
Yang L, Zhang Q, Li F, Xie A, Mao L, Ma JD. Thermally stable lead-free phosphor in glass enhancement performance of light emitting diodes application. Appl Opt. 2019;58:4099–104.YangLZhangQLiFXieAMaoLMaJDThermally stable lead-free phosphor in glass enhancement performance of light emitting diodes applicationAppl Opt.201958409910410.1364/AO.58.00409931158161Search in Google Scholar
Ding XR, Chen Q, Tang Y, Li JS, Talwar DP, Yu BH, et al. Improving the optical performance of multi-chip LEDs by using patterned phosphor configurations. Opt Express. 2018;26:A283–92.DingXRChenQTangYLiJSTalwarDPYuBHImproving the optical performance of multi-chip LEDs by using patterned phosphor configurationsOpt Express.201826A2839210.1364/OE.26.00A28329609359Search in Google Scholar
Gao WJ, Ding K, He GX, Zhong P. Color temperature tunable phosphor-coated white LEDs with excellent photometric and colorimetric performances. Appl Opt. 2018;57:9322–7.GaoWJDingKHeGXZhongPColor temperature tunable phosphor-coated white LEDs with excellent photometric and colorimetric performancesAppl Opt.2018579322710.1364/AO.57.00932230461972Search in Google Scholar
Zhang J, Ji BW, Hua ZH, “Investigations on the luminescence of Ba2Mg(PO4)2:Eu2+,Mn2+ phosphors for LEDs,” Opt. Mater. Express. 2016;6:3470–5.ZhangJJiBWHuaZH“Investigations on the luminescence of Ba2Mg(PO4)2:Eu2+,Mn2+ phosphors for LEDs,”Opt. Mater. Express.201663470510.1364/OME.6.003470Search in Google Scholar
Li J-S, Chen Y-H, Li Z-T, Yu S-D, Tang Y, Ding X-R, et al. ACU optimization of pcLEDs by combining the pulsed spray and feedback method. J Display Technol. 2016;12:1229–34.LiJ-SChenY-HLiZ-TYuS-DTangYDingX-RACU optimization of pcLEDs by combining the pulsed spray and feedback methodJ Display Technol.20161212293410.1109/JDT.2016.2588419Search in Google Scholar
Alzahrani JS, Alothman MA, Eke C, Ghamdi HA, Aloraini DA, Buriahi MSA. Simulating the radiation shielding properties of TeO2–Na2O–TiO glass system using PHITS Monte Carlo code. Comput Mater Sci. 2021;196:110566.AlzahraniJSAlothmanMAEkeCGhamdiHAAlorainiDABuriahiMSASimulating the radiation shielding properties of TeO2–Na2O–TiO glass system using PHITS Monte Carlo codeComput Mater Sci.202119611056610.1016/j.commatsci.2021.110566Search in Google Scholar
Olarinoye O, Alomairy S, Sriwunkum C, Buriahi MA. Effect of Ag2O/V2O5 substitution on the radiation shielding ability of tellurite glass system via XCOM approach and FLUKA simulations. Phys Scr. 2021;96:065308.OlarinoyeOAlomairySSriwunkumCBuriahiMAEffect of Ag2O/V2O5 substitution on the radiation shielding ability of tellurite glass system via XCOM approach and FLUKA simulationsPhys Scr.20219606530810.1088/1402-4896/abf26aSearch in Google Scholar
Buriahi MA, Tonguc BT, Perişanoğlu U, Kavaz E. The impact of Gd2O3 on nuclear safety proficiencies of TeO2–ZnO–Nb2O5 glasses: A GEANT4 Monte Carlo study. Ceram Int. 2020;46:23347–56.BuriahiMATongucBTPerişanoğluUKavazEThe impact of Gd2O3 on nuclear safety proficiencies of TeO2–ZnO–Nb2O5 glasses: A GEANT4 Monte Carlo studyCeram Int.202046233475610.1016/j.ceramint.2020.03.110Search in Google Scholar
Ge ZY, Piquette A, Mishra KC, Klotzkin D. Enhanced forward emission of YAG:Ce3+ phosphor with polystyrene nanosphere coating. Appl Opt. 2015;54:6025–8.GeZYPiquetteAMishraKCKlotzkinDEnhanced forward emission of YAG:Ce3+ phosphor with polystyrene nanosphere coatingAppl Opt.2015546025810.1364/AO.54.00602526193147Search in Google Scholar
Cheng J, Zhang J, Lu J, Bian XT, Zhang HC, Shen ZH, et al. Photoluminescence properties of Ca4La6(SiO4)4(PO4)2O2-based phosphors for wLEDs. Chin Opt Lett. 2019;17:051602.ChengJZhangJLuJBianXTZhangHCShenZHPhotoluminescence properties of Ca4La6(SiO4)4(PO4)2O2-based phosphors for wLEDsChin Opt Lett.20191705160210.3788/COL201917.051602Search in Google Scholar
Agarwal S, Haseman MS, Khamehchi A, Saadatkia P, Winarski DJ, Selim FA. Physical and optical properties of Ce:YAG nanophosphors and transparent ceramics and observation of novel luminescence phenomenon. Opt Mater Express. 2017;7:1055–65.AgarwalSHasemanMSKhamehchiASaadatkiaPWinarskiDJSelimFAPhysical and optical properties of Ce:YAG nanophosphors and transparent ceramics and observation of novel luminescence phenomenonOpt Mater Express.2017710556510.1364/OME.7.001055Search in Google Scholar
Li B-C, Zhang D-W, Huang Y-S, Ni ZJ, Zhuang S-L. A new structure of multi-layer phosphor package of white LED with high efficiency. Chin Opt Lett. 2010;8:221–3.LiB-CZhangD-WHuangY-SNiZJZhuangS-LA new structure of multi-layer phosphor package of white LED with high efficiencyChin Opt Lett.20108221310.3788/COL20100802.0221Search in Google Scholar
Liu Z–Y, Liu S, Wang K, Luo X-B. Measurement and numerical studies of optical properties of YAG:Ce phosphor for white light-emitting diode packaging. Appl Opt. 2010;49:247–57.LiuZ-YLiuSWangKLuoX-BMeasurement and numerical studies of optical properties of YAG:Ce phosphor for white light-emitting diode packagingAppl Opt.2010492475710.1364/AO.49.00024720062512Search in Google Scholar
Yen WM, Weber MJ. Inorganic phosphors: compositions, preparation and optical properties. Boca Raton, FL: CRC Press; 2004.YenWMWeberMJInorganic phosphors: compositions, preparation and optical propertiesBoca Raton, FLCRC Press200410.1201/9780203506325Search in Google Scholar
Liu S, Luo XB. LED packaging for lighting applications: design, manufacturing and testing. Beijing: Chemical Industry Press and John Wiley & Sons; 2011.LiuSLuoXBLED packaging for lighting applications: design, manufacturing and testingBeijingChemical Industry Press and John Wiley & Sons201110.1002/9780470827857Search in Google Scholar
Davis W, Ohno Y. Color quality scale. Opt Eng. 2010;49:033602.DavisWOhnoYColor quality scaleOpt Eng.20104903360210.1117/1.3360335Search in Google Scholar