We introduce a thin LiF layer into tris-8-hydroxyquinoline aluminium (Alq3 ) based bilayer organic light-emitting devices to block hole transport. By varying the thickness and position of this LiF layer in Alq3, we ...We introduce a thin LiF layer into tris-8-hydroxyquinoline aluminium (Alq3 ) based bilayer organic light-emitting devices to block hole transport. By varying the thickness and position of this LiF layer in Alq3, we obtain an electroluminescent efficiency increase by a factor of two with respect to the control devices without a LiF blocking layer. By using a 10nm dye doped Alq3 sensor layer, we prove that LiF can block holes and excitons effectively. Experimental results suggest that the thin LiF layer may be a good hole and exciton blocking layer.展开更多
The organic light-emitting devices(OLEDs) using 4,4',4''-tris{N-(3-methylphenyl)-N-phenylamin}triphenylamine(m-MTDATA) and MoO_3 or 1,3,5-triazo-2,4,6-triphosphorine-2,2,4,4,6,6-tetrachloride(TAPC) and MoO...The organic light-emitting devices(OLEDs) using 4,4',4''-tris{N-(3-methylphenyl)-N-phenylamin}triphenylamine(m-MTDATA) and MoO_3 or 1,3,5-triazo-2,4,6-triphosphorine-2,2,4,4,6,6-tetrachloride(TAPC) and MoO_3 as the hole-injection layer(HIL) were fabricated. MoO_3 can be expected to be a good injection layer material and thus enhance the emission performance of OLED. The highest occupied molecular(HOMO) of MoO_3 is between those of m-MTDATA or TAPC and N,N'-bis-(1-naphthyl)-N,N'-diphenyl-1,1'-biphenyl-4,4'-diamine(NPB),which reduces the hole-injection barrier and improves the luminance of the OLEDs. The current efficiency is improved compared with that of the device without the MoO_3 layer. The highest luminous efficiency of the device with 2-nm-thick MoO_3 as HIL is achieved as 5.27 cd/A at 10 V,which is nearly 1.2 times larger than that of the device without it. Moreover,the highest current efficiency and power efficiency of the device with the structure indium-tin oxide(ITO)/TAPC(40 nm)/MoO_3(2 nm)/Tc Ta:Ir(ppy)3(10%,10 nm)/ tris-(8-hydroxyquinoline) aluminium(Alq)(60 nm)/Li F(1 nm)/Al are achieved as 37.15 cd/A and 41.23 lm/W at 3.2 V and 2.8 V,respectively.展开更多
Ladies and Gentlemen,Dear friends,I’m delighted to attend the roundtable discussion jointly held by the Chinese Association for International Understanding (CAFIU) and Jean Jaurès Foundation of France,and have e...Ladies and Gentlemen,Dear friends,I’m delighted to attend the roundtable discussion jointly held by the Chinese Association for International Understanding (CAFIU) and Jean Jaurès Foundation of France,and have exchanges with you in person who have been supportive展开更多
From September 6 to 9,a CAFIU delegation headed by Mr.Qi Xuchun,Vice-Chairman of the National Committee of the CPPCC and Vice-President of CAFIU visited New Zealand.The following is the address made by Vice-President ...From September 6 to 9,a CAFIU delegation headed by Mr.Qi Xuchun,Vice-Chairman of the National Committee of the CPPCC and Vice-President of CAFIU visited New Zealand.The following is the address made by Vice-President Qi at the University of Victoria Wellington.展开更多
基金Supported by the National Natural Science Foundation of China under Grant No 10504044, and the Fok Ying Tung Education Foundation under Grant No 101007.
文摘We introduce a thin LiF layer into tris-8-hydroxyquinoline aluminium (Alq3 ) based bilayer organic light-emitting devices to block hole transport. By varying the thickness and position of this LiF layer in Alq3, we obtain an electroluminescent efficiency increase by a factor of two with respect to the control devices without a LiF blocking layer. By using a 10nm dye doped Alq3 sensor layer, we prove that LiF can block holes and excitons effectively. Experimental results suggest that the thin LiF layer may be a good hole and exciton blocking layer.
基金supported by the Major Project of Science and Technology Office of Fujian Province of China(No.2014H0042)the Natural Science Foundation of Fujian Province of China(No.2015J01664)the Project of Science and Technology Research of Quanzhou City in Fujian Province of China(Nos.2013Z125 and 2014Z137)
文摘The organic light-emitting devices(OLEDs) using 4,4',4''-tris{N-(3-methylphenyl)-N-phenylamin}triphenylamine(m-MTDATA) and MoO_3 or 1,3,5-triazo-2,4,6-triphosphorine-2,2,4,4,6,6-tetrachloride(TAPC) and MoO_3 as the hole-injection layer(HIL) were fabricated. MoO_3 can be expected to be a good injection layer material and thus enhance the emission performance of OLED. The highest occupied molecular(HOMO) of MoO_3 is between those of m-MTDATA or TAPC and N,N'-bis-(1-naphthyl)-N,N'-diphenyl-1,1'-biphenyl-4,4'-diamine(NPB),which reduces the hole-injection barrier and improves the luminance of the OLEDs. The current efficiency is improved compared with that of the device without the MoO_3 layer. The highest luminous efficiency of the device with 2-nm-thick MoO_3 as HIL is achieved as 5.27 cd/A at 10 V,which is nearly 1.2 times larger than that of the device without it. Moreover,the highest current efficiency and power efficiency of the device with the structure indium-tin oxide(ITO)/TAPC(40 nm)/MoO_3(2 nm)/Tc Ta:Ir(ppy)3(10%,10 nm)/ tris-(8-hydroxyquinoline) aluminium(Alq)(60 nm)/Li F(1 nm)/Al are achieved as 37.15 cd/A and 41.23 lm/W at 3.2 V and 2.8 V,respectively.
文摘Ladies and Gentlemen,Dear friends,I’m delighted to attend the roundtable discussion jointly held by the Chinese Association for International Understanding (CAFIU) and Jean Jaurès Foundation of France,and have exchanges with you in person who have been supportive
文摘From September 6 to 9,a CAFIU delegation headed by Mr.Qi Xuchun,Vice-Chairman of the National Committee of the CPPCC and Vice-President of CAFIU visited New Zealand.The following is the address made by Vice-President Qi at the University of Victoria Wellington.