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Light conversion film containing coumarin green light dyestuff

A light conversion film and coumarin-based technology, which is applied in the direction of coumarin dyes, organic dyes, and luminescent materials, can solve the problems of processing sensitivity and other issues, and achieve stable emission spectrum, strong luminescence of materials, and high fluorescence quantum yield Effect

Active Publication Date: 2017-06-13
GUANGDONG AGLAIA OPTOELECTRONICS MATERIALS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, these traditional dye molecules are very sensitive to the processing technology, and their luminous color will change greatly after processing or exposure at different temperatures (reference: Abstract, 2354, 218th ECSMeeting), so it is necessary to develop photoconversion materials that are stable to the environment

Method used

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  • Light conversion film containing coumarin green light dyestuff
  • Light conversion film containing coumarin green light dyestuff
  • Light conversion film containing coumarin green light dyestuff

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0035] The synthesis of embodiment 1 green light dye GT1:

[0036] For its synthetic route, see figure 1 shown.

[0037] (1) Synthesis of compound 2a

[0038]

[0039] Synthetic steps: Add compound 1a (commercially available) (6.48g, 20mmol), potassium vinylfluoroborate (3.22g, 24mmol), tetrakistriphenylphosphine palladium (8.3g, 5%), K to a 250mL reaction flask 2 CO 3 (6.48g, 60mmol), toluene (70mL) and water (14mL). Nitrogen was evacuated 3 times, heated up to 80° C., kept at this temperature, and reacted for 8 hours. TLC detected that the reaction of compound 1a was complete.

[0040] Post-reaction treatment: Stop heating, lower the temperature to 20°C, pour the reaction liquid into water, extract and separate the liquids with EA (100 mL*3), combine the organic layers, dry with anhydrous sodium sulfate, and evaporate to dryness under reduced pressure. The crude product was obtained by column chromatography as a white compound 2a (4 g, yield 73.7%). 1 H NMR (400MHz,...

Embodiment 2

[0050] The synthesis of embodiment 2 green light dye GT2:

[0051] For its synthetic route, see figure 2 shown.

[0052] (1) Synthesis of compound 3b

[0053]

[0054] Synthetic steps: add compound 1b (commercially available) (4.58g, 20mmol) in 250mL reaction flask, compound 2b (commercially available) (8.5g, 30mmol), Pd 2 (dba) 3 (920mg, 5%), tri-tert-butylphosphine (400mg, 10%), sodium tert-butoxide (4.58g, 40mmol) and toluene (100mL). Nitrogen was evacuated 3 times, heated up to 110° C., kept at this temperature, and reacted for 12 hours. TLC detected that the reaction of compound 1b was complete.

[0055] Post-reaction treatment: Stop heating, lower the temperature to 20°C, pour the reaction liquid into water, extract and separate the liquids with ethyl acetate (10 mL*2), combine the organic layers, dry over anhydrous sodium sulfate, and evaporate to dryness under reduced pressure. The crude product was subjected to column chromatography to obtain pale yellow comp...

Embodiment 3

[0064] The photophysical property test of embodiment 3 green light dyes GT1 and GT2:

[0065] The test of photophysical properties of green light dyes GT1 and GT2 in solution is to dissolve the corresponding dyes in toluene or dichloromethane, and the concentration of the solution is 1×10 -5 mol / L, the dye-based CCF film was prepared by dissolving the dye and the corresponding proportion of PMMA in toluene, and then drying it. The photophysical properties of the dye film were measured after the dye was dissolved in THF and then spin-coated to prepare the film. The effect of CCF films prepared with GT1 and GT2 on background blue light (λ max ≈450nm) has good absorption, see image 3 , Figure 5 , the emitted light is green light, see Figure 4 , Image 6 . GT1 and GT2 have strong luminescence (quantum yield QY is close to 70%), are not sensitive to the preparation process, and their emission spectra are very stable in a large range of doping concentration and temperature. ...

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Abstract

The invention provides a light conversion film containing a coumarin green light dyestuff. The light conversion film comprises the green light dyestuff and cured macromolecular resin, wherein a molecular structure of the green light dyestuff is shown as a formula (I), wherein R1, R2, and R3 are independently represented as hydrogen, C1 to C8 substituted or unsubstituted alkyl, alkoxyl or halogen. A photo-physical property test on the green light dyestuff shows that a molecule shown as the formula (I) has high fluorescent quantum yield and high light emitting property, and is not sensitive to a preparation process so that the light conversion film has a relatively stable emission spectrum in relatively large doping concentration and temperature ranges of the formula (I). (The formula (I) is shown as the description.).

Description

technical field [0001] The invention relates to a new type of organic color conversion film for plane display, in particular to a class of coumarin-based green light dye conversion film, in which green light dye and cured polymer resin are spin-coated into a thin film, which can be applied to plane display . Background technique [0002] With the continuous breakthrough of the display industry technology and the increasing market demand, the flat panel display has risen rapidly due to its advantages of small size, light weight, low power consumption, low radiation, and good electromagnetic compatibility, and has become the mainstream of display technology in the 21st century. . The color forming method of the flat panel display plays a very important role in its production process, and its quality directly determines the color rendering effect, production cost and service life of the flat panel display. [0003] At present, the mainstream technology for realizing color dis...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09K11/02C09K11/06C09B57/02C09B67/02C08L33/12C08K5/18H01L51/54
CPCC09K11/025C09K11/06C08K5/18C09B57/02C09B67/0097C09K2211/1088H10K85/631H10K85/6574C08L33/12
Inventor 周鹏程戴雷蔡丽菲
Owner GUANGDONG AGLAIA OPTOELECTRONICS MATERIALS