Edge-self-sealing quantum dot film

A quantum dot film and self-sealing technology, which can be used in electronic equipment, applications, coatings, etc., can solve the problems of increasing the coating edge banding process, poor size adaptability, and good uniformity

Active Publication Date: 2016-12-07
XIAMEN BOHR TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Compared with the prior art, the disadvantages of this method are: (1) need to change coating equipment; (2) intermittent coating is not as good as continuous coating; (3) increases the time required for coating edge sealant process, which reduces production efficiency; (4) the coating area of ​​quantum dot glue and the area surrounded by edge sealing glue need to be precisely aligned, which increases technical difficulty and reduces the product qualification rate; (5) quantum dots of one size The dot film can only correspond to one cutting size, and the size adaptability of the product is poor; (6) In order to ensure that the quantum dot layer is in the middle of the film, the quantum dot film needs to be precisely aligned with the cutting mold, which increases the technical difficulty and reduces the Product qualification rate; (7) The positioning holes need to be made in the edge banding area, which makes the width of the edge banding area larger, which increases the width of the display device frame and affects the appearance
[0004] In addition, people try to coat the edge of the quantum dot film with adhesive or extend the length of the water-oxygen barrier layer to cover the edge of the quantum dot film (Chinese patent CN 104501043 A). The disadvantages are: (1) coating the adhesive on the edge of the qu

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] 1. Preparation of liquid microcapsules

[0030] Add 10 parts by mass of polyester polyol and 2.5 parts by mass of emulsifier into 100 parts by mass of water, and emulsify with an emulsifier for 10 minutes to form an emulsion. The emulsion was transferred into a reaction kettle, heated to 60° C. with stirring by a stirrer, and then 0.02 parts by mass of initiator and 8 parts by mass of polyacrylate monomer were added dropwise at the same time. After reacting for 3 hours, the emulsion was transferred into a container, centrifuged with a centrifuge, and the precipitate was washed with ethanol to obtain polyester polyol liquid microcapsules with a particle size of 1 μm.

[0031] 5 parts by mass of isocyanate and 1.4 parts by mass of emulsifier were added to 100 parts by mass of water, and emulsified by an emulsifier for 11 minutes to form an emulsion. The emulsion was transferred into a reaction kettle, heated to 50° C. under stirring by a stirrer, and then 0.01 parts by m...

Embodiment 2

[0040] 1. Preparation of liquid microcapsules

[0041]8 parts by mass of epoxy resin and 7 parts by mass of ethylene-vinyl acetate copolymer were dissolved in 110 parts by mass of toluene as oil phase; 3 parts by mass of emulsifier were dissolved in 200 parts by mass of water as water phase. Add the oil phase dropwise to the water phase under stirring to make it into an emulsion, then heat to 60°C and continue to stir for 8h, so that the toluene is slowly volatilized. Phase separation occurs due to different phases, and the ethylene-vinyl acetate copolymer migrates to the interface between the oil phase and the water phase to become the wall of the microcapsules. After the toluene volatilized, the emulsion was transferred into a container, centrifuged with a centrifuge, and the precipitate was washed with ethanol to obtain epoxy resin liquid microcapsules with a particle size of 8 μm.

[0042] 9 parts by mass of polythiol and 9 parts by mass of ethylene-vinyl acetate copolyme...

Embodiment 3

[0051] 1. Preparation of liquid microcapsules

[0052] Add 11 parts by mass of photocurable resin, 6 parts by mass of isocyanate, and 4 parts by mass of emulsifier into 120 parts by mass of water, and emulsify with an emulsifier for 20 minutes to form an emulsion. Transfer the emulsion into a reaction kettle, slowly add 0.02 parts by mass of catalyst triethylenetetramine and 9 parts by mass of polyethylene glycol under stirring by a stirrer, stir for 8 minutes and then heat to 70°C. After reacting for 1 hour, the emulsion was transferred into a container, centrifuged with a centrifuge, and the precipitate was washed with ethanol to obtain photocurable resin liquid microcapsules with a particle size of 3 μm.

[0053] 2. Preparation of edge self-sealing quantum dot film

[0054] 6 parts by mass of photocurable resin liquid microcapsules, 1.1 parts by mass of green quantum dots, 0.1 parts by mass of red quantum dots, 50 parts by mass of silicone resin, 0.06 parts by mass of cros...

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Abstract

The invention relates to a quantum dot film, particularly an edge-self-sealing quantum dot film. The edge-self-sealing quantum dot film is provided with a quantum dot layer, wherein a water oxygen barrier layer is respectively arranged on the upper and lower surfaces of the quantum dot layer; the quantum dot layer is composed of liquid microcapsules, quantum dots, dispersed particles, a matrix resin and a film forming aid; the liquid microcapsules are uniformly distributed in the quantum dot layer; each of the liquid microcapsules is provided with a liquid capsule core; and a solid capsule wall is arranged outside each liquid capsule core. After the edge-self-sealing quantum dot film is cut off, the liquid microcapsules at the notch can be cut off, the film forming liquid in the liquid microcapsules can seep and be fused mutually, and the liquid can implement homogeneous immersion on the film edge under the action of surface tension; and the liquid can be cured to form a film under the condition of normal temperature, heating or ultraviolet irradiation, thereby performing a sealing function on the edge of the quantum dot film. The sealing process is not limited by the edge contour of the film, and the edge-self-sealing quantum dot film can also have a sealing effect on the internal edges of complicated film edge contours or locating hole films.

Description

technical field [0001] The invention relates to a quantum dot film, in particular to an edge self-sealing quantum dot film whose edge can realize self-sealing after being cut. Background technique [0002] The quantum dot film has been applied to liquid crystal display devices, which increases the color gamut of liquid crystal display devices to above 100% NTSC, and significantly improves the accuracy and vividness of color display. According to the existing production technology, the quantum dot film is manufactured in a roll-to-roll manner. Before the quantum dot film is installed in the display device, the quantum dot film needs to be cut according to the size requirements of different devices. After the quantum dot film is cut off, the quantum dots on the edge of the quantum dot film will be exposed (Chinese patent CN 104937729 A), which will have two adverse effects: (1) the quantum dots on the edge of the film may fall off and cause environmental pollution; (2) The qu...

Claims

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Application Information

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IPC IPC(8): C09D183/04C09D133/08C09D163/00C09D175/04C09D123/00C09D201/00C09D7/12B32B33/00
CPCB32B33/00C09D123/00C09D133/08C09D163/00C09D175/04C09D183/04C09D201/00B32B2255/26B32B2307/7244B32B2307/7246B32B2457/202C08L2205/025C08L2205/03C08L2205/035C08L2205/18C08L67/00C08L63/00C08L101/00C08L83/04
Inventor 陈凯武
Owner XIAMEN BOHR TECH CO LTD
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