CN106316924A - 一种热活化延迟荧光材料 - Google Patents

一种热活化延迟荧光材料 Download PDF

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CN106316924A
CN106316924A CN201510332072.0A CN201510332072A CN106316924A CN 106316924 A CN106316924 A CN 106316924A CN 201510332072 A CN201510332072 A CN 201510332072A CN 106316924 A CN106316924 A CN 106316924A
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delayed fluorescence
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段炼
张东东
朱映光
张国辉
刘嵩
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Abstract

本发明公开了一种热活化延迟荧光材料,具有如式Ⅰ所示结构,式 Ⅰ其中,R1~ R5中最多有两个为H,其余均为给电子基团。本发明的热活化延迟荧光材料分子式中只含有一个氰基和至多两个H,其余均为给电子基团,该结构的优势为:1)单个氰基的吸电子能力较弱,能够获得更宽带隙(2.5ev-3.5ev)的材料,有助于蓝光材料的构筑;2)单个氰基材料的LUMO能级更浅(2.7eV左右),对主体材料的依赖性更弱;3)原料的合成更简单,价格更便宜。

Description

一种热活化延迟荧光材料
技术领域
本发明属于OLED发光层材料领域,具体涉及一种热活化延迟荧光材料。
背景技术
在OLED材料的选择上,单线态发光的荧光材料寿命好,价格低廉,但是效率低;三线态发光的磷光材料效率高,但是价格昂贵,而且蓝光材料的寿命问题一直没有解决。日本九州大学的Adachi提出了一类新的有机发光材料,即热活化延迟荧光(TADF)材料。该类材料的单线态-三线态能隙(ΔEST)非常小(<0.3 eV),三线态激子可以通过反向系间窜越(RIST)转变成单线态激子发光,因此器件的内量子效率可以达到100%。
发明内容
本发明提供了一种新型的热活化延迟荧光材料。
本发明的一种热活化延迟荧光材料,具有如式Ⅰ所示结构,
式 Ⅰ
其中,R1~ R5中最多有两个为H,其余均为给电子基团。
优选地,R1~ R5中一个为H,其余均为给电子基团。
优选地,所述给电子基团为取代或未取代的咔唑基,取代或未取代的吲哚咔唑基,取代或未取代的吩恶嗪基,取代或未取代的吩噻嗪基,取代或未取代的吖啶基。
优选地,所述给电子基团为如下结构的基团:
,其中,R6 和R7为给电子基团或H,
优选地,R6 和R7选自氢,甲基,叔丁基,甲氧基,苯基,取代或未取代的咔唑基。
优选地,上述的热活化延迟荧光材料为具有如下结构的化合物:
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14。
本发明能够达到以下效果:
1、本发明提供了一种全新的热活化延迟荧光材料,其单线态-三线态能隙(<0.3eV),可以有效的发出延迟荧光。
2、本发明的热活化延迟荧光材料分子式中只含有一个氰基和至多两个H,其余均为给电子基团,该结构的优势为:
1)单个氰基的吸电子能力较弱,能够获得更宽带隙(2.5ev-3.5ev)的材料,有助于蓝光材料的构筑;
2)单个氰基材料的LUMO能级更浅(2.7eV左右),作为OLED发光层的染料时,对主体材料的依赖性更弱;
3)原料的合成更简单,价格更便宜。
具体实施方式
下面结合具体实施例对本发明作进一步说明,以使本领域的技术人员可以更好的理解本发明并能予以实施,但所举实施例不作为对本发明的限定。
本发明的热活化延迟荧光材料,具有如下结构:
式 Ⅰ
其中,R1~ R5中最多有两个为H,其余均为给电子基团。
此结构给体和苯环的平面因为大位阻的原因具有较大的扭曲结构,因此材料的HOMO和LUMO能级会分别分布在给体和受体上。HOMO与LUMO的空间分离能够减小单线态和三线态的能隙,从而实现其能隙差小于0.3 eV。材料的能隙可以通过理论计算得到。
本发明的热活化延迟荧光材料为具有如下结构的化合物:
下述化合物的单线态-三线态能隙通过Gaussian 09软件,TDDFT基组计算得出。
C1(单线态-三线态能隙0.24 eV) (HOMO 5.54 eV ,LUMO 2.74 eV)
C2(单线态-三线态能隙0.20 eV) (HOMO 5.45eV, LUMO 2.74 eV)
C3(单线态-三线态能隙0.18 eV) (HOMO5.40 eV,LUMO2.73 eV)
C4(单线态-三线态能隙0.28 eV) (HOMO 5.73 eV,LUMO 2.87 eV)
C5(单线态-三线态能隙0.25 eV) (HOMO 5.48 eV,LUMO 2.73 eV)
C6(单线态-三线态能隙0.25 eV) (HOMO 5.52 eV,LUMO 2.70 eV)
C7(单线态-三线态能隙0.22 eV) (HOMO 5.50 eV,LUMO 2.70 eV)
C8(单线态-三线态能隙0.25 eV) (HOMO 5.49 eV,LUMO 2.74 eV)
C9(单线态-三线态能隙0.28 eV) (HOMO 5.68 eV,LUMO 2.50 eV)
C10(单线态-三线态能隙0.27 eV) (HOMO 5.69 eV,LUMO 2.51 eV)
C11(单线态-三线态能隙0.12 eV) (HOMO 5.55 eV,LUMO 2.75 eV)
C12(单线态-三线态能隙0.11 eV) (HOMO 5.58 eV,LUMO 2.78 eV)
C13(单线态-三线态能隙0.13 eV) (HOMO 5.45 eV,LUMO 2.70 eV)
C14(单线态-三线态能隙0.11 eV) (HOMO 5.40 eV,LUMO 2.69 eV)。
合成实验
实施例1
合成C1。在氮气氛围下,将1mol叔丁醇钾溶解到20mlDML中搅拌1小时,然后将溶有1mol咔唑的DML溶液逐滴加入,全部加完后搅拌1小时。随后将溶有0.2 mol 2,3,4,5,6-五氟苯腈的DMF溶液逐滴加入,搅拌5小时。随后将反应液倒入水中,过滤得到固体。用色谱柱分离。得C1,产率90%。
质谱:929。
元素分析:C:86.60,H:4.35,N:9.05。
实施例2
合成C2。反应物咔唑替换为叔丁基咔唑,经过与实施例1相同的合成方法,得C2,产率91%。
质谱:1490。
元素分析:C: 86.20, H: 8.16, N: 5.64。
实施例3
合成C3。反应物咔唑替换为苯基咔唑,经过与实施例1相同的合成方法,得C3,产率91%。
质谱:1689。
元素分析:C: 90.20 H: 4.83 N: 4.97。
实施例4
合成C4。在氮气氛围下,将1mol叔丁醇钾溶解到20mlDML中搅拌1小时,然后将溶有1mol咔唑的DML溶液逐滴加入,全部加完后搅拌1小时。随后将溶有0.25 mol 2,3,5,6-四氟苯腈的DMF溶液逐滴加入,搅拌5小时。随后将反应液倒入水中,过滤得到固体。用色谱柱分离。得C4,产率90%。
质谱:763。
元素分析:C: 86.47, H: 4.36, N: 9.17。
实施例5
合成C5。反应物咔唑替换为叔丁基咔唑,经过与实施例4相同的合成方法,得C5,产率91%。
质谱:1212。
元素分析:C: 86.15, H: 8.07, N: 5.77。
实施例6
合成C6。反应物咔唑替换为甲基咔唑,经过与实施例4相同的合成方法,得C6,产率91%。
质谱:876。
元素分析:C: 86.36, H: 5.65, N: 7.99。
实施例7
合成C7。 反应物咔唑替换为苯基咔唑,经过与实施例4相同的合成方法,得C7,产率91%。
质谱:1372。
元素分析:C: 90.10 H: 4.79 N:5.10。
实施例8
合成C2。 反应物咔唑替换为甲氧基咔唑,经过与实施例4相同的合成方法,得C8,产率91%。
质谱:1004。
元素分析:C:75.35 H:4.93, N: 6.97。
实施例9
合成C9。 在氮气氛围下,将1mol叔丁醇钾溶解到20mlDML中搅拌1小时,然后将溶有1mol甲氧基咔唑的DML溶液逐滴加入,全部加完后搅拌1小时。随后将溶有0.33 mol2,4,6-三氟苯腈的DMF溶液逐滴加入,搅拌5小时。随后将反应液倒入水中,过滤得到固体。用色谱柱分离。得C9,产率90%。
质谱:778。
元素分析:C:75.55 H: 4.93 N: 7.19。
实施例10
合成C10。 反应物甲氧基咔唑替换为叔丁基咔唑,经过与实施例9相同的合成方法,得C10,产率91%。
质谱:935。
元素分析:C: 86.00 H: 7.81 N: 5.99。
实施例11
合成C11。反应物咔唑替换为吩恶嗪,经过与实施例4相同的合成方法,得C11,产率91%。
质谱:829。
元素分析:C:79.79 H: 4.00 N:8.48。
实施例12
合成C12。反应物咔唑替换为吩噻嗪,经过与实施例4相同的合成方法,得C12,产率91%。
质谱:892。
元素分析:C: 74.05, H: 3.70 N: 7.88。
实施例13
合成C13。反应物咔唑替换为吖啶,经过与实施例4相同的合成方法,得C13,产率91%
质谱:932。
元素分析:C:86.32 H: 6.15 N:7.52。
实施例14
合成C14。反应物咔唑替换为吩嗪,经过与实施例4相同的合成方法,得C14,产率91%。
质谱:880。
元素分析:C:80.50 H:5.17 N:14.32。
本发明的热活化延迟荧光材料的应用:
有机电致发光器件中的基本结构包括:依次层叠的基板,阳极,空穴传输层,发光层,电子传输层和阴极。
基体为透明基体,可以是玻璃或是柔性基片,柔性基片采用聚酯类、聚酰亚胺类化合物中的一种材料;第一电极层(阳极层),可以采用无机材料或有机导电聚合物,无机材料一般为ITO、氧化锌、氧化锡锌等金属氧化物或金、铜、银等功函数较高的金属,最优化的选择为ITO,有机导电聚合物优选为聚噻吩/聚乙烯基苯磺酸钠(以下简称PEDOT:PSS)、聚苯胺(以下简称PANI)中的一种材料;第二电极层(阴极层、金属层),一般采用锂、镁、钙、锶、铝、铟等功函数较低的金属或它们与铜、金、银的合金,或金属与金属氟化物交替形成的电极层,本发明优选为依次的Mg:Ag合金层、Ag层和依次的LiF层、Al层。
本发明的下述实施例中,OLED包括依次层叠的阳极/空穴传输层/第一激子阻挡层/发光层/第二激子阻挡层/电子传输层/电子注入层/阴极。其中,阳极为ITO;空穴传输层为NPB;第一激子阻挡层由TCTA层和mCP层层叠构成;发光层的主体材料为DPEPO,其中掺杂本发明的热活化延迟荧光材料(C1-C14)作为发光染料,掺杂的质量百分比浓度为10%;第二激子阻挡层为DPEPO;电子传输层为Bphen;电子注入层为LiF;阴极为Al。
上述材料作为发光层染料的OLED性能数据如下:
编号 器件结构 亮度 cd/m2 电压 V 电流效率cd/A 外量子效率 色坐标
实施例1 ITO/NPB/TCTA/mCP/DPEPO:10%C1/DPEPO/Bphen/LiF/Al 500 5.0 10 8% (0.20,0.38)
实施例2 ITO/NPB/TCTA/mCP/DPEPO:10%C2/DPEPO/Bphen/LiF/Al 500 4.9 15 10% (0.20,0.39)
实施例3 ITO/NPB/TCTA/mCP/DPEPO:10%C3/DPEPO/Bphen/LiF/Al 500 4.8 18 11% (0.20,0.40)
实施例4 ITO/NPB/TCTA/mCP/DPEPO:10%C4/DPEPO/Bphen/LiF/Al 500 5.5 8 6% (0.20,0.41)
实施例5 ITO/NPB/TCTA/mCP/DPEPO:10%C5/DPEPO/Bphen/LiF/Al 500 5.4 16 10% (0.16,0.21)
实施例6 ITO/NPB/TCTA/mCP/DPEPO:10%C6/DPEPO/Bphen/LiF/Al 500 5.3 17 11% (0.17,0.21)
实施例7 ITO/NPB/TCTA/mCP/DPEPO:10%C7/DPEPO/Bphen/LiF/Al 500 5.2 18 12% (0.17,0.22)
实施例8 ITO/NPB/TCTA/mCP/DPEPO:10%C8/DPEPO/Bphen/LiF/Al 500 5.1 20 13% (0.18,0.22)
实施例9 ITO/NPB/TCTA/mCP/DPEPO:10%C9/DPEPO/Bphen/LiF/Al 500 5.7 10 7% (0.15,0.18)
实施例10 ITO/NPB/TCTA/mCP/DPEPO:10%C10/DPEPO/Bphen/LiF/Al 500 5.8 11 7% (0.15,0.19)
实施例11 ITO/NPB/TCTA/mCP/DPEPO:10%C11/DPEPO/Bphen/LiF/Al 500 4.8 30 10% (0.50,0.48)
实施例12 ITO/NPB/TCTA/mCP/DPEPO:10%C12/DPEPO/Bphen/LiF/Al 500 4.9 31 12% (0.51,0.49)
实施例13 ITO/NPB/TCTA/mCP/DPEPO:10%C13/DPEPO/Bphen/LiF/Al 500 4.5 38 14% (0.49,0.45)
实施例14 ITO/NPB/TCTA/mCP/DPEPO:10%C14/DPEPO/Bphen/LiF/Al 500 5.0 28 8% (0.55,0.50)
对比例 ITO/NPB/TCTA/mCP/DPEPO:10%DPVBi/DPEPO/Bphen/LiF/Al 500 5.5 6 4% (0.20, 0.35)
从上表可看出,基于合成材料的器件能够实现超过传统荧光5%外量子效率的限制,实现更高的效率。以上所述实施例仅是为充分说明本发明而所举的较佳的实施例,本发明的保护范围不限于此。本技术领域的技术人员在本发明基础上所作的等同替代或变换,均在本发明的保护范围之内。本发明的保护范围以权利要求书为准。

Claims (6)

1.一种热活化延迟荧光材料,其特征在于,具有如式Ⅰ所示结构,
式 Ⅰ
其中,R1~ R5中最多有两个为H,其余均为给电子基团。
2.根据权利要求1所述的热活化延迟荧光材料,其特征在于,R1~ R5中一个为氢,其余均为给电子基团。
3.根据权利要求1所述的热活化延迟荧光材料,其特征在于,所述给电子基团为取代或未取代的咔唑基,取代或未取代的吲哚咔唑基,取代或未取代的吩恶嗪基,取代或未取代的吩噻嗪基,取代或未取代的吖啶基。
4.根据权利要求2所述的热活化延迟荧光材料,其特征在于,所述给电子基团为如下结构的基团:
,其中,R6 和R7为给电子基团或氢,
5.根据权利要求3所述的热活化延迟荧光材料,其特征在于,R6 和R7选自氢,甲基,叔丁基,甲氧基,苯基,取代或未取代的咔唑基。
6.根据权利要求3所述的热活化延迟荧光材料,其特征在于,其为具有如下结构的化合物:
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14。
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