Solid state cathodoluminescence based on tris-(8-hydroxyquinoline) aluminum and its quenching mechanism

Solid state cathodoluminescence based on tris-(8-hydroxyquinoline) aluminum and its quenching mechanism

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摘要 A novel solid state cathodoluminescence(SSCL) device(the device has a structure of ITO/SiO2/Alq3/SiO2/Al) is fabricated using organic materials as the fluorescent film sandwiched between two SiO2 layers.When alternating current(AC) voltage is applied to this device,uniform emissions are observed.When the voltage is 50 V,a longer wavelength emission(522 nm) is obtained,but the shorter wavelength emission(465 nm) is dominant when the voltage is 76 V.The origins of these emissions are discussed.The interface formed between SiO2 and tris-(8-hydroquinoline) aluminum(Alq3) of SSCL device was investigated by using X-ray photoelectron spectroscopy(XPS).Analyses of the XPS spectra reveal a deep diffusion of the indium into the interface.On the other hand,the interaction between indium and Alq3 occurs at the interface and results in the formation of a carbon-oxygen-metal(In or Al) complex in the contact region.This effect causes a luminescence quenching in the SSCL device. A novel solid state cathodoluminescence(SSCL) device(the device has a structure of ITO/SiO2/Alq3/SiO2/Al) is fabricated using organic materials as the fluorescent film sandwiched between two SiO2 layers.When alternating current(AC) voltage is applied to this device,uniform emissions are observed.When the voltage is 50 V,a longer wavelength emission(522 nm) is obtained,but the shorter wavelength emission(465 nm) is dominant when the voltage is 76 V.The origins of these emissions are discussed.The interface formed between SiO2 and tris-(8-hydroquinoline) aluminum(Alq3) of SSCL device was investigated by using X-ray photoelectron spectroscopy(XPS).Analyses of the XPS spectra reveal a deep diffusion of the indium into the interface.On the other hand,the interaction between indium and Alq3 occurs at the interface and results in the formation of a carbon-oxygen-metal(In or Al) complex in the contact region.This effect causes a luminescence quenching in the SSCL device.

作者 LianBin Niu YunXia Guan

机构地区 Chongqing Normal Univ

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2010年第5期783-787,共5页 中国科学：物理学、力学、天文学（英文版）

基金 supported by the National Natural Science Foundation of China (Grant No. 60806047) the Natural Science Foundation Project of CQ CSTC (Grant No. 2009BB2237) the Science and Technology of Chongqing Municipal Education Commission (Grant No. KJ080816) the Natural Science Foundation of Chongqing Normal University (Grant Nos. 07XLB015 and 08XLS12)

关键词 B2solid state cathodoluminescence(SSCL) tris-(8-hydroquinoline) aluminum(Alq3) SiO2 X-ray PHOTOELECTRON spectroscopy(XPS) interface B2solid state cathodoluminescence(SSCL) tris-(8-hydroquinoline) aluminum(Alq3) SiO2 X-ray photoelectron spectroscopy(XPS) interface

分类号 N [自然科学总论]

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1NIU LianBin,GUAN YunXia,REN Yue,KONG ChunYang,MA Yan,LIANG YiPing.Highly efficient stacked organic light-emitting devices employing a novel intermediate layer[J].Science China(Technological Sciences),2009,52(1):95-98. 被引量：2
2Yoshiki N,Akira K,Nobuyoshi K.Generation of ballistic electrons in nanocrystalline porous silicon layersand its application to a solid-state planar luminescent device. Applied Physics Letters . 2002
3Xu Z,Qu C,Teng F, et al.Why is the band model not contradictory to molecular theory in organic electroluminescence. Applied Physics Letters . 2005
4Ramesh K K,Yang C Q,Martin P.Investigation of device failure mechanisms in polymer light-emitting diode. Synthetic Metals . 1997
5ChinY H,Wen H L,Yew C S, et al.Thermal annealing effect of in- dium tin oxide contact to GaN light-emitting diodes. Japanese Journal of Applied Physics . 2005
6Keith J L.The mechanism of processes initiated by excited atoms II. Photosensitization by excited mercury and cadmium. The Journal of Chemical Physics . 1942
7Billard P,Nguyen Q T,Leger C, et al.Diffusion of organic com- pounds through chemically asymmetric membranes made of semi-interpenetrating polymer networks. Separation and Purification Technology . 1998
8Nguyen T P,Rendu P L,Vos S A.An X-ray photoelectron spectros- copy investigation into the interface formed between poly (2-meth- oxy-s-5- (2′-ethyl-hexyloxyl)-p-phenylene vinylene) and indium tin ox-ide. Synthetic Metals . 2003
9Tang CW,Vanslyke SA.Organic electroluminescent didoes. Applied Physics . 1987
10Xu X L,Chen X H,Hou Y B et al.Blue electroluminescence from tris-(8-hydroxyquinoline) aluminum thin film. The Journal of Chemical Physics . 2000

二级参考文献14

1Gao W,Kahn A.Controlled p-type doping of an organic molecular semiconductor. Applied Physics Letters . 2001
2Tanaka S,Hosakawa C.Organic EL light emitting element with light emitting layers and intermediate conductive layer. US Patent, 6107734 . 2000
3Jones G W,Howard W E.Serially connected organic light emitting diode stack having conductors sandwiching each light emitting layer. US Patent, 6337492 . 2002
4Noolandi J,Hong K M.Theory of photo generation and fluorescence quenching. The Journal of Chemical Physics . 1979
5Tang C W,Vanslyke S A.Organic electroluminescent diodes. Applied Physics Letters . 1987
6Kido J,Matsumoto T.Bright organic electroluminescent devices having a metal-doped electron-injecting layer. Applied Physics Letters . 1998
7Endo J,Matsumoto T,Kido J.Organic electroluminescent devices with a vacuum-deposited Lewis-acid-doped hole-injecting layer, Jpn. Journal of Applied Physics . 2002
8Pfeiffer M. Forrest S. R. Leo K. et al.Electrophosphorescent p-i-n organic light-emitting devices for very-high-efficiency fiat-panel displays. Advanced Materials . 2002
9Law C W,Lau K M,Fung M K et al.Effective organic-based connection unit for stacked organic light-emitting devices. Applied Physics Letters . 2006
10LEE T W,NOH T,CHOI B K.High-efficiency stacked whiteorganic light-emitting diodes. Applied Physics Letters . 2008

共引文献1

1WANG Jing.Focuses of material science development in recent years[J].Science China(Technological Sciences),2011,54(6):1645-1648. 被引量：1

1陈尚贤,陈柳生,K.SEKI,N.SATO,H.INOKUCHI.VACUUM-UV PHOTOELECTRON SPECTRA FOR SEVERAL POLYMERS[J].Chinese Science Bulletin,1989,34(8):636-639.
2CLUES POINTING TO UNIVERSE＇S ORIGINS FOUND![J].科学（中文版）,2004(10):80-80.
3Xiangling Ren,Jiejie Ge,Xianwei Meng,Xiaozhong Qiu,Jun Ren,Fangqiong Tang.Sensitive detection of dopamine and quinone drugs based on the quenching of the fluorescence of carbon dots[J].Science Bulletin,2016,61(20):1615-1623. 被引量：3
4薛奇,刘石英,黄学英,孙彪,张鹏翔,李秀英,郭伟立.COORDINATION POLYMERIZATION OF IMIDAZOLE ON THE SURFACE OF METALLIC SILVER STUDIED BY THE USE OF SERS IR AND XPS[J].Chinese Science Bulletin,1989,34(13):1090-1094.
5徐法强,朱俊发,孙玉明,王险峰,陆尔东,徐彭寿,张新夷,庄叔贤.Study on oxidation of Gd film grown on Ni(110) surface by synchrotron radiation photoemission[J].Progress in Natural Science:Materials International,1999,9(10):34-40.
6ZHENG QiuSha,QIN ChaoChao,LONG JinYou,TANG BiFeng,ZHANG Song,ZHANG Bing.Ultrafast dynamics of o-fluorophenol studied with femtosecond time-resolved photoelectron and photoion spectroscopy[J].Science China(Physics,Mechanics & Astronomy),2010,53(6):1040-1044. 被引量：2
7史常生,冯玉玲,陈江山,马东阁.反转结构有机发光二极管的电子注入层研究[J].长春理工大学学报（自然科学版）,2012,35(1):112-115.
8张酣,赵勇,周先意,王根苗,刘双怀,何振辉,王顺喜,张其瑞.STRUCTURE AND PROPERTY OF Y-Ba-Cu-Sn-O SYSTEM[J].Science China Mathematics,1990,33(11):1358-1369.
9白光弼,王云普,陈广德,高锦章,康敬万.STUDY ON SYNTHESIS AND CATALYTIC ACTIVATION OF Sm WITH THENOYL TRIFLUOROACETONE AND 3-HYDROXYQUINOLINE TERNARY COMPLEX[J].Chinese Science Bulletin,1991,36(9):787-788.
10胡典文,伍乃娟,沈电洪,齐上雪.XPS STUDY OF SUPERCONDUCTOR Ba_2YCu_3O_(7-δ) BY VACUUM ANNEALING[J].Chinese Science Bulletin,1989,34(4):269-273.

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Solid state cathodoluminescence based on tris-(8-hydroxyquinoline) aluminum and its quenching mechanism

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