浏览全部资源
扫码关注微信
东北大学 材料科学与工程学院, 辽宁 沈阳 110819
[ "吕清洋(1996-), 女, 河南信阳人, 硕士研究生, 2018年于河南科技大学获得学士学位, 主要从事光功能材料的研究。E-mail:1870346@stu.neu.edu.cn" ]
[ "刘绍宏(1981-), 男, 湖北十堰人, 博士, 副教授, 2010年于东北大学获得博士学位, 主要从事光功能材料的研究。E-mail:liush@smm.neu.edu.cn" ]
纸质出版日期:2020-11,
收稿日期:2020-8-3,
录用日期:2020-9-1
扫 描 看 全 文
吕清洋, 薛秉国, 王婷婷, 等. 白光照明用YAG:Ce荧光薄膜研究进展[J]. 发光学报, 2020,41(11):1323-1334.
Qing-yang LYU, Bing-guo XUE, Ting-ting Wang, et al. Research Progress of YAG: Ce Fluorescent Films for White Lighting[J]. Chinese Journal of Luminescence, 2020,41(11):1323-1334.
吕清洋, 薛秉国, 王婷婷, 等. 白光照明用YAG:Ce荧光薄膜研究进展[J]. 发光学报, 2020,41(11):1323-1334. DOI: 10.37188/CJL.20200231.
Qing-yang LYU, Bing-guo XUE, Ting-ting Wang, et al. Research Progress of YAG: Ce Fluorescent Films for White Lighting[J]. Chinese Journal of Luminescence, 2020,41(11):1323-1334. DOI: 10.37188/CJL.20200231.
YAG:Ce荧光薄膜发光效率高、热稳定性好、散热快,在高功率高亮度白光照明,尤其是激光驱动白光照明(Laser-driven white lighting)领域具有广阔的应用前景。本文综述了近年来国内外YAG:Ce多晶薄膜、单晶薄膜以及复合薄膜的制备技术及其性能特点,并展望了其在高性能白光LED和高功率激光驱动白光照明领域的应用前景。
YAG:Ce fluorescent films have high luminous efficiency
good thermal stability
and fast heat dissipation
which have broad practical application prospects in the field of high-power white lighting and laser-driven white lighting. This article reviews the recent research on the preparation and performances of YAG:Ce polycrystalline films
single crystal films
and composite films. The future applications of YAG:Ce films in high performance WLED and laser-driven white lighting are also proposed.
薄膜YAG:Ce单晶多晶激光
filmsYAG:Cesingle crystalpolycrystallinelaser
GONG M G, XIANG W D, LIANG X J, et al.. Growth and characterization of air annealing Tb-doped YAG:Ce single crystal for white-light-emitting diode [J].J. Alloys Compd., 2015, 639:611-616.
LIU S X, LI X Y, YU X L, et al.. A route for white LED package using luminescent low-temperature co-fired ceramics [J].J. Alloys Compd., 2016, 655:203-207.
SHI H L, ZHU C, HUANG J Q, et al.. Luminescence properties of YAG:Ce, Gd phosphors synthesized under vacuum condition and their white LED performances [J].Opt. Mater. Express, 2014, 4(4):649-655.
NISHIURA S, TANABE S, FUJIOKA K, et al.. Properties of transparent Ce:YAG ceramic phosphors for white LED [J].Opt. Mater., 2011, 33(5):688-691.
JUNG H C, PARK J Y, RAJU G S R, et al.. Enhancement of red emission in aluminum garnet yellow phosphors by Sb3+ substitution for the octahedral site [J].J. Am. Ceram. Soc., 2011, 94(2):551-555.
YE S, XIAO F, PAN Y X, et al.. Phosphors in phosphor-converted white light-emitting diodes:recent advances in materials, techniques and properties [J].Mater. Sci. Eng., R:Rep., 2010, 71(1):1-34.
LEE S, SEO S Y, SOHN K S, et al.. Optical optimization of (Gd2-x-yAlx)O3: Eu3+y red phosphors for displays and YAG: Ce phosphors for white LEDs by combinatorial chemistry[C].Proceedings of The Solid State Lighting and Displays, San Diego, CA, 2001, 4445: 82-92.
YUM J H, SEO S Y, LEE S,et al.. Y3Al5O12:Ce0.05 phosphor coatings on gallium nitride for white light emitting diodes [J].J. Electrochem. Soc., 2003, 150(2):H47-H52.
YUM J H, KIM S S, SUNG Y E. Y3Al5O12:Ce0.05 phosphor coatings on a flexible substrate for use in white light-emitting diodes [J].Colloids Surf., A: Physicochem. Eng. Aspects, 2004, 251(1-3):203-207.
XIA Z G, MEIJERINK A. Ce3+-doped garnet phosphors:composition modification, luminescence properties and applications [J].Chem. Soc. Rev., 2017, 46(1):275-299.
DI X X, HE X L, JIANG J T, et al.. Facile fabrication of Eu3+ activated YAG:Ce3+ glass ceramics exhibiting high thermal stability and tunable luminescence for warm white LEDs [J].J. Mater. Sci. Mater. Electron., 2017, 28(12):8611-8620.
WANG Z M, ZOU J, LI Y, et al.. The study of luminescence properties on Ce:YAG phosphor in glass co-sintered at different temperatures [J].J. Mater. Sci. Mater. Electron., 2017, 28(22):16633-16638.
阳范文, 赵耀明.电子封装用环氧树脂的研究现状与发展趋势[J].电子工艺技术, 2001, 22(6):238-241.
YANGF W, ZHAO Y M. Situation and development of epoxy resins for electronic packaging [J].Electron. Process Technol., 2001, 22(6):238-241. (in Chinese)
JIANG J T, CHENG Y Z, CHEN W, et al.. Mn4+/Zn2+:YAG glass ceramic for light emitting devices[J].Mater. Res. Bull., 2018, 105:277-285.
REVAUX A, DANTELLE G, GEORGE N, et al.. A protected annealing strategy to enhanced light emission and photostability of YAG:Ce nanoparticle-based films [J].Nanoscale, 2011, 3(5):2015-2022.
CAO X, SUN S C, LU B, et al.. Spectral photoluminescence properties of YAG:Ce, R(R:Gd3+, Pr3+, Gd3+ and Pr3+) transparent fluorescent thin film prepared by pulse laser deposition [J].J. Lumin., 2020, 223:117222-1-9.
赵爱平.超声辅助共沉淀法制备YAG: Ce荧光粉及发光性能研究[D].成都: 电子科技大学, 2012.
ZHAO A P. Ultrasonic-assisted Coprecipitation Method for Preparation of YAG: Ce Phosphor and Its Luminescence Properties [D]. Chengdu: University of Electronic Science and Technology, 2012. (in Chinese)
TOUS J, BLAZEK K, KUCERA M, et al.. Scintillation efficiency and X-ray imaging with the RE-doped LuAG thin films grown by liquid phase epitaxy [J].Radiat. Meas., 2012, 47(4):311-314.
BOUKERIKA A, GUERBOUS L, CHELEF H, et al.. Preparation and characterization of bright high quality YAG:Eu3+ thin films grown by sol-gel dip-coating technique [J].Thin Solid Films, 2019, 683:74-81.
邵国键.提高太阳能电池转换效率的研究[D].南京: 东南大学, 2016.
SHAO G J. Investigation on The Enhancement of Conversion Efficiency of Solar Cell [D]. Nanjing: Southeast University, 2016. (in Chinese)
夏李斌, 王令, 王林生, 等.纳米YAG:Ce3+, Mn+(Mn+=Ca2+, Gd3+)荧光粉的结构与发光性能[J].光谱学与光谱分析, 2018, 38(9):2681-2687.
XIA L B, WANG L, WANG L S, et al.. Structure and optical properties of YAG:Ce3+, Mn+(Mn+=Ca2+, Gd3+) nano-phosphor [J].Spectrosc. Spectral Anal., 2018, 38(9):2681-2687. (in Chinese)
JACOBS R R, KRUPKE W F, WEBER M J. Measurement of excited-state-absorption loss for Ce3+ in Y3Al5O12 and implications for tunable 5d→4f rare-earth lasers [J].Appl. Phys. Lett., 1978, 33(5):410-412.
JIA N T, ZHANG X D, HE W,et al.. Property of YAG:Ce phosphors powder prepared by mixed solvothermal method [J].J. Alloys Compd., 2011, 509(5):1848-1853.
MINISCALCO W J, PELLEGRINO J M, YEN W M. Measurements of excited-state absorption in Ce3+:YAG [J].J. Appl. Phys., 1978, 49(12):6109-6111.
PAN Y X, WU M M, SU Q. Comparative investigation on synthesis and photoluminescence of YAG:Ce phosphor [J].Mater. Sci. Eng.:B, 2004, 106(3):251-256.
ROTMAN S R, WARDE C. Defect luminescence in cerium-doped yttrium aluminum garnet [J].J. Appl. Phys., 1985, 58(1):522-525.
LOWNDES D H, GEOHEGAN D B, PURETZKY A A, et al.. Synthesis of novel thin-film materials by pulsed laser deposition [J].Science, 1996, 273(5277):898-903.
CHOE J Y. Luminescence and compositional analysis of Y3Al5O12:Ce films fabricated by pulsed-laser deposition [J].Mater. Res. Innov., 2002, 6(5-6):238-241.
MA R, LU B, CAO H Q, et al.. Preparation and characterization of YAG:Ce thin phosphor films by pulsed laser deposition [J].Int. J. Appl. Ceram. Technol., 2017, 14(1):22-30.
卢兵.稀土掺杂YAG荧光粉体及透明薄膜的制备和性能研究[D].深圳: 深圳大学, 2016.
LU B. Preparation and Properties of Rare Earth Doped YAG Phosphor Powder and Transparent Film [D]. Shenzhen: Shenzhen University, 2016. (in Chinese)
KIM J W, KIM Y J. The effects of substrates and deposition parameters on the growing and luminescent properties of Y3Al5O12:Ce thin films [J].Opt. Mater., 2006, 28(6-7):698-702.
CHAO W H, WU R J, WU T B. Structural and luminescent properties of YAG:Ce thin film phosphor [J].J. Alloys Compd., 2010, 506(1):98-102.
赵昀云.稀土掺杂YAG荧光膜的制备与发光性能研究[D].成都: 电子科技大学, 2016.
ZHAO Y Y. Synthesis and Optical Performances of Rare-earth Doped YAG Phosphor Films [D]. Chengdu: University of Electronic Science and Technology, 2016. (in Chinese)
SHAO G J, LOU C G, KANG J, et al.. Luminescent down shifting effect of Ce-doped yttrium aluminum garnet thin films on solar cells [J].Appl. Phys. Lett., 2015, 107(25):253904-1-4.
LIU Y M, ZOU J, SHI M M, et al.. Effect of gallium ion content on thermal stability and reliability of YAG:Ce phosphor films for white LEDs [J].Ceram. Int., 2018, 44(1):1091-1098.
高康, 朱归胜, 徐华蕊. Sol-gel法制备YAG:Ce荧光薄膜[J].材料导报, 2012, 26(7):36-38.
GAO K, ZHU G S, XU H R. Preparation of YAG:Ce thin phosphor film by sol-gel method [J].Mater. Rev., 2012, 26(7):36-38. (in Chinese)
ZORENKO Y, GORBENKO V, KONSTANKEVYCH I, et al.. Single-crystalline films of Ce-doped YAG and LuAG phosphors:advantages over bulk crystals analogues [J].J. Lumin., 2005, 114(2):85-94.
ZORENKO Y, ZYCH E, VOLOSHINOVSKⅡ A. Intrinsic and Ce3+-related luminescence of YAG and YAG:Ce single crystals, single crystalline films and nanopowders [J].Opt. Mater., 2009, 31(12):1845-1848.
ZORENKO Y, VOLOSHINOVSKⅡ A, SAVCHYN V, et al.. Exciton and antisite defect-related luminescence in Lu3Al5O12 and Y3Al5O12 garnets [J].Phys. Status Solidi B, 2007, 244(6):2180-2189.
ZORENKO Y, GORBENKO V, SAVCHYN V, et al.. Time-resolved luminescent spectroscopy of YAG:Ce single crystal and single crystalline films [J].Radiat. Meas., 2010, 45(3-6):395-397.
ZORENKO Y, MARES J A, PRUSA P, et al.. Luminescence and scintillation characteristics of YAG:Ce single crystalline films and single crystals [J].Radiat. Meas., 2010, 45(3-6):389-391.
REVAUX A, DANTELLE G, DECANINI D,et al.. Synthesis of YAG:Ce/TiO2 nanocomposite films [J].Opt. Mater., 2011, 33(7):1124-1127.
XU J, LIU B G, LIU Z W, et al.. Design of laser-driven SiO2-YAG:Ce composite thick film:facile synthesis, robust thermal performance, and application in solid-state laser lighting [J].Opt. Mater., 2018, 75:508-512.
JIA J, LI D X, JIA H S, et al.. Effect of composition and package structure of bi-color flexible remote phosphor film on the properties of remote white LEDs [J].Opt. Mater., 2017, 72:602-611.
PARK B K, PARK H K, OH J H, et al.. Selecting morphology of Y3Al5O12:Ce3+ phosphors for minimizing scattering loss in the pc-LED package [J].J. Electrochem. Soc., 2012, 159(4):J96-J106.
KIMURA S, YOSHIDA H, UESUGI K, et al.. Performance enhancement of blue light-emitting diodes with InGaN/GaN multi-quantum wells grown on Si substrates by inserting thin AlGaN interlayers [J].J. Appl. Phys., 2016, 120(11):113104.
REINEKE S. Complementary LED technologies [J].Nat. Mater., 2015, 14(5):459-462.
HURNI C A, DAVID A, CICH M J, et al.. Bulk GaN flip-chip violet light-emitting diodes with optimized efficiency for high-power operation [J].Appl. Phys. Lett., 2015, 106(3):031101-1-4.
KIM M H, SCHUBERT M F, DAI Q, et al.. Origin of efficiency droop in GaN-based light-emitting diodes [J].Appl. Phys. Lett., 2007, 91(18):183507-1-3.
CRAWFORD M H. LEDs for solid-state lighting:performance challenges and recent advances [J].IEEE J. Sel. Top. Quant. Electron., 2009, 15(4):1028-1040.
VERZELLESI G, SAGUATTI D, MENEGHINI M, et al.. Efficiency droop in InGaN/GaN blue light-emitting diodes:physical mechanisms and remedies [J].J. Appl. Phys., 2013, 114(7):071101-1-14.
WIERER JR J J, TSAO J Y, SIZOV D S. Comparison between blue lasers and light-emitting diodes for future solid-state lighting [J].Laser Photonics Rev., 2013, 7(6):963-993.
FITZGERALD R J. Lighting with laser diodes [J].Phys. Today, 2013, 66(9):18.
KEDAWAT K G, KUNDU P, SRIVASTAVA R, et al.. High power laser-driven Ce3+-doped yttrium aluminum garnet phosphor incorporated sapphire disc for outstanding white light conversion efficiency [J].Phys. Status Solidi A, 2019, 216(18):1900110-1-10.
XU J, HU B F, XU C, et al.. Carbon-free synthesis and luminescence saturation in a thick YAG:Ce film for laser-driven white lighting [J].J. Eur. Ceram. Soc., 2019, 39(2-3):631-634.
WEI R, WANG L, ZHENG P, et al.. On the luminance saturation of phosphor-in-glass (PiG) films for blue-laser-driven white lighting:Effects of the phosphor content and the film thickness [J].J. Eur. Ceram. Soc., 2019, 39(5):1909-1917.
WANG B, QI H J, HAN H T, et al.. Structural, luminescent properties and chemical state analysis of YAG:Ce nanoparticle-based films [J].Opt. Mater. Express, 2016, 6(1):155-165.
YAO Q, HU P, SUN P, et al.. YAG:Ce3+ transparent ceramic phosphors brighten the next-generation laser-driven lighting [J].Adv. Mater., 2020, 32(19):1907888-1-7.
HUANG P, ZHOU B Y, ZHENG Q, et al.. Nano wave plates structuring and index matching in transparent hydroxyapatite-YAG:Ce composite ceramics for high luminous efficiency white light-emitting diodes [J].Adv. Mater., 2020, 32(1):1905951-1-10.
0
浏览量
276
下载量
7
CSCD
关联资源
相关文章
相关作者
相关机构