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Display panel and display device

A display panel and liquid crystal layer technology, applied in the direction of instruments, nonlinear optics, optics, etc., can solve problems such as eye damage, blue sub-pixel area viewing angle deviation, strong blue light intensity, etc., to reduce the amount of transmission and improve the viewing angle Offset, reduce the effect of blue light intensity

Active Publication Date: 2019-05-03
TCL CHINA STAR OPTOELECTRONICS TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Among them, the red sub-pixel area and the green sub-pixel area are filled with quantum dot materials. The quantum dot material allows users to receive red or green light at various angles, while the blue sub-pixel area needs to pass through the blue light source. Usually filled with transparent materials or even not filled, this will cause the problem of viewing angle deviation in the blue sub-pixel area, and at the same time, the intensity of blue light emitted by the blue sub-pixel area is strong, which will cause certain damage to the user's eyes

Method used

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  • Display panel and display device
  • Display panel and display device
  • Display panel and display device

Examples

Experimental program
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no. 1 example

[0040] see figure 2 , the protruding structure 123 and the transparent conductive film layer 125 are made of the same material. The transparent conductive film layer 125 is made of metal oxide, such as indium tin oxide, indium zinc oxide, aluminum tin oxide, aluminum zinc oxide, indium germanium zinc oxide, or other suitable oxides, or is a stack layer of at least two of the above.

[0041] Optionally, the protruding structure 123 may be formed during the process of preparing the transparent conductive film layer 125 , that is, the patterned transparent conductive film layer 125 is obtained. Under the basic structure of the color filter layer 110, after completing the encapsulation, flattening layer 127 and polarizing layer 126 and other processes, a transparent photoresist structure of unequal height is prepared above the polarizing layer 126. This transparent photoresist structure of unequal height The resistive structure can be completed by photolithography process, and ...

no. 2 example

[0043] see image 3 , the polarizing layer 126 has a first top wall 1261 facing the liquid crystal layer 130 . A first protrusion 1262 is disposed on the first top wall 1261 . The first bump 1262 protrudes toward the liquid crystal layer 130 . The first protrusion 1262 has a first peripheral surface 1263 connected to the first top wall 1261 . The functional layer 120 also includes a transparent conductive film layer 125 . The transparent conductive film layer 125 covers the first peripheral surface 1263 to form the protruding structure 123 . That is to say, the protruding structure 123 is formed by the first bump 1262 and the transparent conductive film layer 125 disposed on the first peripheral surface 1263 of the first bump 1262 .

[0044] Optionally, the first bump 1262 and the polarizing layer 126 may be made of the same material or a different material. If the first bumps 1262 and the polarizing layer 126 are made of the same material, the first bumps 1262 can be for...

no. 3 example

[0046] see Figure 4 , the flat layer 127 has a second top wall 1271 facing the liquid crystal layer 130 . A second protrusion 1272 is disposed on the second top wall 1271 , and the second protrusion 1272 protrudes toward the liquid crystal layer 130 . The second protrusion 1272 has a second peripheral surface 1273 connected to the second top wall 1271 . The polarizing layer 126 and the transparent conductive film layer 125 cover the second peripheral surface 1273 to form the protruding structure 123 . Specifically, the polarizing layer 126 covers the second peripheral surface 1273 , and the transparent conductive film layer 125 covers the polarizing layer 126 . That is to say, the protruding structure 123 is formed by the second bump 1272 and the polarizing layer 126 and the transparent conductive film layer 125 disposed on the second peripheral surface 1273 of the second bump 1272 .

[0047] Optionally, the second bump 1272 and the polarizing layer 126 may be made of the ...

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Abstract

A display panel (100) and a display device. The display panel (100) comprises a color filter layer (110), a functional layer (120), and a liquid crystal layer (130) in a stacked arrangement. The functional layer (120) is provided with a top (121) and a bottom (122) in an opposite arrangement. The color filter layer (110) is provided at the top (121). The color filter layer (110) is provided with a blue subpixel area (111) used for transmitting a blue light. The liquid crystal layer (130) is provided at the bottom (122). The bottom (122) is provided with a protruding structure (123). The protruding structure (123) extends into the liquid crystal layer (130). The protruding structure (123) divides the liquid crystal layer (130) into a first area (130a) and a second area (130b). A projection area of the first area (130a) on the color filter layer (110) covers the blue subpixel area (111). Moreover, the thickness of a liquid crystal cell of the first area (130a) is less than the thickness of a liquid crystal cell of the second area (130b).

Description

technical field [0001] The invention relates to the technical field of liquid crystal display, in particular to a display panel with a quantum dot color filter layer and a display device with the display panel. Background technique [0002] The color of the liquid crystal display is realized by means of a color filter (CF, color filter). However, traditional color filters have the disadvantages of poor utilization of light and low transmittance, and the transmission peak of traditional color-resist materials is wide, the color density is limited, and it is difficult to achieve a wide color gamut, which can no longer satisfy users. Requirements for display quality. Quantum dots (Quantum Dots, QDs) are spherical semiconductor nanoparticles composed of II-VI or III-V elements, with a particle size generally ranging from a few nanometers to tens of nanometers. Due to the small half-width of quantum dot materials and the luminescent color can be easily adjusted by the size, str...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02F1/1335G02F1/13357
CPCG02F1/133514G02F1/133528G02F1/1336G02F1/133614
Inventor 陈黎暄
Owner TCL CHINA STAR OPTOELECTRONICS TECH CO LTD