欢迎来到园艺星球(共享文库)! | 帮助中心 分享价值,成长自我!
园艺星球(共享文库)
换一换
首页 园艺星球(共享文库) > 资源分类 > PDF文档下载
 

植物照明用荧光粉转换白光二极管的研究.pdf

  • 资源ID:10675       资源大小:1.53MB        全文页数:6页
  • 资源格式: PDF        下载权限:游客/注册会员/VIP会员    下载费用:0金币 【人民币0元】
快捷注册下载 游客一键下载
会员登录下载
微信登录
下载资源需要0金币 【人民币0元】
邮箱/手机:
温馨提示:
系统会自动生成账号(用户名和密码都是您填写的邮箱或者手机号),方便下次登录下载和查询订单;
验证码:   换一换

加入VIP,免费下载
 
友情提示
2、PDF文件下载后,可能会被浏览器默认打开,此种情况可以点击浏览器菜单,保存网页到桌面,既可以正常下载了。
3、本站不支持迅雷下载,请使用电脑自带的IE浏览器,或者360浏览器、谷歌浏览器下载即可。
4、本站资源下载后的文档和图纸-无水印,预览文档经过压缩,下载后原文更清晰   

植物照明用荧光粉转换白光二极管的研究.pdf

s Vol No pp M Spectroscopy and Spectral Analysis April v x 5 f u S 9 v 0 S s K 1 LED r q 8 l p i O y V L C z e v 5 Y h v LED s v B LED 6 B LED v LED V LED P V 7 L C v LED v s LED LED x F L C x LED V n T r q A l o 7 4 T l y LED A T a 3 S A Ra y A R R I n 4 v LED 1 N 9 3 1 z v 5 LED n YAGG s Sr Ca AlSiN i d M E V Sr Ca AlSiN x i s Y V q y z LED q i s Y s x R x R Lighttools s Y y LED nm LED nm Sr Ca AlSiN YAGG x F L C LED T LED q s A LED Sr Ca AlSiN YAGG x F A s Y V Sr Ca AlSiN Eu YAGG x p LED LED Ra R R rLER lm W r A LED c 3 1 1 o M LED v e R R m s TN D S M A DOI j issn l 8 8 M LR F S E 9 YFB YFB S E 1 S 8 m 9 C T e o M 3 S 9 v 0 S 3 e mail qq com Y T e mail calla cjlu edu cn zhanghong cjlu edu cn 3 B d 3 V 1 T 3 K B V T 7 T V 4 o Y v i 7 i T nm V Y T nm V nm V y LED y r q 8 l p V v 5 A i O v 9 d i O LED X z v LED v V s B T v LED F 6 B LED x F s l s B LED F V F y 3 f 1 LED 3 3 s T V 3 3 K R B 6 B LED x LED y e 7 y Z T s CaAlSiN Eu i k LED 5 3 r T L C Y LED 5 LED e y Lin Y V RB RBW RB and White LED 3 s V b c Y T V V 4 RBW LED 3 3 N b A Q 7 o l s u l a 3 l z A i LED x M LED i 7 v T V red yellow blue 3 A v 3 z A L V y A R R V LED v 5 5 I n v LED R R p V Sr Ca AlSiN x Sr x s xYAGG 5 E q y E q s i s T LED A Y L s 1 1 LED E 5 L Z E y LED Q V LED x i d F x R x s s x s V x l L C LED x l x s LED u 1 2 Z E k p E LED Y V x s x 1 p InGaN InGaN b LED K Q Z ATA LED s d HAAS 9 K LED M 1 A r k 1 3 4 d M E Ca N Si N AlN EuN T S V Sr Ca AlSiN x XRD h n 5 F T m a FL s 9 Sr Ca AlSiN Eu x m nm Sr c 1 V 3 M nm m b Sr Ca AlSiN Eu m V Sr Sr Ca AlSiN Eu x em z FWHM V V Sr Ca AlSiN Eu x FWHM Sr c 9 F C 5 9 F h l t Sr Ca AlSiN Eu x nm z nm H Sr Ca AlSiN Eu x C K v O Y V Sr Sr Ca AlSiN Eu YAGG C H A K D Sr Ca AlSiN Eu x n s xYAGG s o nm FWHM nm T 2 1 T s 9 3 1 Sr Ca AlSiN Eu YAGG F Light m1 a Sr Ca 0 9 2 AlSiN3 0 0 8 Eu 2 x m b Sr0 8 Ca 0 1 2 AlSiN3 0 0 8 Eu 2 m Fig 1 a The emissio n spectrum o f Sr Ca 0 9 2 AlSiN3 0 0 8 Eu 2 Ex 4 5 0 nm b Fluo rescence spectrum o f Sr0 8 Ca 0 1 2 AlSiN3 0 0 8 Eu 2 s V1 Sr Sr Ca 0 9 2 AlSiN3 0 0 8 Eu 2 x Ta ble 1 Da ta o f spectra l cha ra cteristic pa ra meters o f Sr Ca 0 9 2 AlSiN3 0 0 8 Eu 2 pho spho rs with dif ferent Sr do ping a mo unts Sr z nm nm A7 浇 浇 A7 浇 浇 A7 浇 浇 A7 浇 浇 A7 浇 浇 A7 浇 浇 Tools q s Y q y x V 7 L C LED e m U m m s Y Duv H q e Y V e x s x 8 s E q s m V m V A M 1 T E V 3 T E A x s x 8 s 1 Z U V V V V A Sr c H Z R R 1 x LED s B 9 LED x e e u Y o LED T B o nm 6 B o nm V CCT x E y A R R 1 m2 e Fig 2 Spectra l reg ula tio n mo del V V V C 1 E A Sr Ca AlSiN Eu YAGG x F R R v 4 K H R R A R V r 4 3 s m3 H q x E q m Duv 0 0 0 5 4 Fig 3 Simula ted spectra l g ra phs under different CCTs ba sed o n o ne chip spectra l reg ula tio n mo del 2 2 T s CaAlSiN Eu YAGG x F WLED A s m a WLED A s m4 H q x E q m Duv 0 0 0 5 4 Fig 4 Simula ted spectra l g ra phs under different CCTs ba sed o n two chip spectra l reg ula tio n mo del V2 H q T E A Duv 0 0 0 5 4 Ta ble 2 Co lo r rendering index es o f simula ted spectra under different CCTs ba sed o n two chip spectra l reg ula tio n mo del Duv 0 0 0 5 4 K s x 8 s x 8 s Ra R R 靠 浇苘 乙 b 靠 浇苘 乙 b 靠 浇苘 乙 b 靠 浇苘 乙 b 靠 7 浇苘 乙 b 靠 7 浇苘 乙 b 靠 浇痧 浇苘 乙 b 靠 浇苘 乙 b V3 E y A R9 R1 2 1 Ta ble 3 Co mpa riso n o f R9 a nd R1 2 o f simula ted spectra K R nm R nm R nm R nm 枛 浇 浇 乙 浇 枛 浇 浇 乙 浇 枛 浇 浇 乙 浇 枛 浇 浇 乙 浇 枛 浇 浇 乙 浇 枛 浇 浇 乙 浇 枛 浇 浇 乙 浇 枛 浇 浇 乙 浇 m5 WLED A 1 m a r 1 m b Fig 5 Co mpa riso n o f the a Ra R9 R1 2 a nd b LER 1 t m m b WLED rLER 1 t m CaAlSiN x s nm z nm YAGG s x nm z nm m V 4 s M WLED A Ra T WLED r 1 T V y T T LED T 9 v LED 9 v 7 r WLED y A R R T Sr Ca AlSiN Eu YAGG F T B LED m U k LED V m V A LED CCT K H V C z A Ra R R LER lm W CIE m6 LED LED m Fig 6 Spectrum pa cka g ed by using two blue LED chips m U S m U E B 8 C LED T LED V C s Y V M Q E V Sr Ca AlSiN x H Sr Ca AlSiN Eu 1 O r K v s Y y LED nm LED nm Sr Ca AlSiN Eu YAGG x e Sr Ca AlSiN Eu o nm z FWHM nm YAGG s x o nm z FWHM nm Y V M s x 8 s s Y T E K S LED i T y A R R s 1 T V x F R R T s Y CaAlSiN Eu YAGG x F 1 WLED M T A U R R A 4 B Sr Ca AlSiN Eu YAGG LED LED q CCT K Ra R R LER lm W E z v LED 9 4 B H 9 E q s B I N References Yun Y J Kim J K Ju J Y et al Phys Chem Chem Phys Song Z Xu Y Li C et al Ceramics International Chen J Y Zhang N M Guo C F et al ACS Applied Materials G China Illuminating Engineering Journal v DENG Jian kun CHEN Yan ke CHEN Zhi jie et al y S Chinese Journal of Luminescence Kuan Hung Lin Meng Yuan Huang Wen Dar Huang et al Scientia Horticulturae Han T Vaganov V Cao S et al Scientific Reports Zhu J Wang L Zhou T et al Journal of Materials Chemistry C s Pho spho r Co nv erted White Lig ht Emitting Dio des fo r Pla nt Lig hting CAO Li ZHENG Zi shan ZHANG Hong LIANG Pei ZHU Qiang qiang WANG Le College of Optics and Electronic Science and Technology China Jiliang University Hangzhou China Abstra ct LED has the advantages of high efficiency small size low power consumption long life and son on and it can easily achieve wide spectral regulation which makes it stand out in the field of agriculture Plant growth light emitting diodes LEDs can be divided into two categories one is monochromatic LED and the other is a White light emitting diode WLED WLEDs used for plant growth are either mixed with monochromatic LED or used alone to realize plant supplementary lighting Most of the WLEDs on plant growth is composed of a blue LED chip or a UV LED chip packed with phosphors that is phosphor converted WLEDs however the obtained spectra are concentrated in the bluish visible light and the efficiency of photosynthesis to plants is relatively poor The absorption spectra of the plant are not full band but selective based on the particularity of the absorption spectra of plant the color rendering performance of the spectra of WLEDs is regarded as the standard to judge whether the spectra are suitable for plant growth the average color rendering index Ra special color rendering index R saturated red light and R saturated blue light were considered as the main performance evaluation parameters of WLEDs on plant growth In order to design WLEDs with good performance and can be used in the field of agriculture common commercial YAGG was selected as green color conversion material and Sr Ca AlSiN was selected as red color conversion material Sr Ca AlSiN red phosphors were prepared by traditional high temperature solid state method and the spectral performance was analyzed By importing the built LED structure models into the simulation software LightTools and introducing the characteristic parameters of green phosphor particles red phosphor particles and blue chip respectively the simulation models of WLED were built based on a single blue LED chip nm and two blue LED chips nm separately the color rendering performance of the spectral power distribution of WLEDs under different correlated color temperature was studied under the two excitation modes In order to verify the difference of the color rendering index of the spectra obtained by the two excitation modes WLEDs were prepared by combining Sr Ca AlSiN and YAGG phosphors Eventually a real WLED was encapsulated by coating the combination of Sr Ca AlSiN Eu and YAGG phosphors on two blue chips and led to an optimal spectrum of Ra R R LER lm W which contains the blue and red light needed for plant growth Key wo rds WLED Plant lighting Spectral regulation R R Received Mar accepted Jul Corresponding authors s

注意事项

本文(植物照明用荧光粉转换白光二极管的研究.pdf)为本站会员(ly@RS)主动上传,园艺星球(共享文库)仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知园艺星球(共享文库)(发送邮件至admin@cngreenhouse.com或直接QQ联系客服),我们立即给予删除!

温馨提示:如果因为网速或其他原因下载失败请重新下载,重复下载不扣分。




固源瑞禾
关于我们 - 网站声明 - 网站地图 - 资源地图 - 友情链接 - 网站客服 - 联系我们

copyright@ 2018-2020 华科资源|Richland Sources版权所有
经营许可证编号:京ICP备09050149号-1

     京公网安备 11010502048994号


 

 

 

收起
展开