KR101469494B1 - Polymer dispersed liquid crystal composition comprising photoluminescent and process for preparing the same - Google Patents

Abstract

The present invention relates to a polymer dispersed liquid crystal composition using a light emitting material and a method for producing the same. The polymer dispersed liquid crystal composition according to the present invention can realize a full color without addition of a color filter by adding a light emitting material in the production of PLDC, and has an excellent light efficiency. Accordingly, the polymer dispersed liquid crystal composition of the present invention can be usefully used in a polymer dispersed liquid crystal display device.

Description

TECHNICAL FIELD The present invention relates to a polymer dispersed liquid crystal composition containing a light emitting material,

The present invention relates to a polymer dispersed liquid crystal composition comprising a light emitting material and a method for producing the same.

2. Description of the Related Art In general, a liquid crystal display device is an apparatus for displaying an image using optical anisotropy and birefringence characteristics of liquid crystal molecules, and a thin film transistor liquid crystal display (TFT LCD) using a thin film transistor (TFT) as a switching element is mainly used have.

However, a general liquid crystal display device has to use a polarizing plate, and substantially 70 to 80% of the light incident from the backlight unit is lost and displayed as an external light. Therefore, the light efficiency is low and the light scattering phenomenon or phase distortion And the like.

A polymer dispersed liquid crystal (PDLC) display device has been proposed to solve this problem. Here, the PDLC is one of the liquid crystal cells used in a liquid crystal display (LCD), and it controls the transmission of light according to the scattering intensity of light and does not require a polarizing plate. Several types of structures have been proposed, including a large number of liquid crystal molecular droplets of several millimeters being dispersed in the polymer material and a liquid crystal being contained in the net-like polymer. That is, the liquid crystal material and the liquid crystal are non-uniformly dispersed and operated by using the difference in refractive index of the two materials.

When a voltage is applied to a PDLC display device, the direction of liquid crystal molecules becomes irregular, the refractive index of the liquid crystal molecules differs at a different interface, and when the voltage is applied, the directions of the liquid crystals become uniform, do. At this time, if the thickness of the liquid crystal cell is not increased, the brightness is not ensured, and as a result, the driving voltage is increased. Such a PDLC display device is not required of an orientation film and a polarizing plate, has flexibility, is easy to manufacture, and has excellent luminance characteristics, so that it can be used for a large display device, a projection TV, and the like.

Due to the above advantages, the PDLC can be applied not only to a transmissive liquid crystal display but also to a reflective liquid crystal display. However, in order to realize a full color, a color filter layer using dyes and pigments is necessary on the front surface of the PDLC. This color filter layer is effective for realizing color but has a disadvantage in reducing the transmittance of the liquid crystal display by about 50 to 60%. In particular, in the case of the reflection type liquid crystal display device, the reflectance is greatly decreased and visibility is lowered.

Accordingly, in the manufacture of PDLC display devices, it is required to develop a full-color reflective and transmissive liquid crystal display device with high optical efficiency without a color filter of pigment or dye type.

Japanese Patent Application Laid-Open No. 10-2004-0062401

Accordingly, the present inventors have been studying the fabrication of reflective and transmissive displays with high light efficiency without pigment or dye type color filters, and have found that when a photo luminescent (PL) material is added, It is possible to manufacture a reflective and transmissive display capable of realizing a high efficiency and a high light efficiency, and completed the present invention.

Accordingly, the present invention provides a polymer dispersed liquid crystal composition using a light emitting material and a method for producing the same.

The present invention also provides a polymer dispersed liquid crystal display device using the polymer dispersed liquid crystal composition.

Disclosed is a polymer dispersed liquid crystal composition which can realize full color without a color filter in the form of a pigment or a dye by adding a light emitting material separately in manufacturing a PDLC, and a method of manufacturing the same.

The present invention also provides a polymer dispersed liquid crystal display device using the polymer dispersed liquid crystal composition.

The polymer dispersed liquid crystal composition according to the present invention can realize a full color without addition of a color filter by adding a light emitting material in the production of PLDC, and has an excellent light efficiency. Accordingly, the polymer dispersed liquid crystal composition of the present invention can be usefully used in a polymer dispersed liquid crystal display device.

FIG. 1 is a view showing a cell state in the reflection and transmission mode of the PL-PDLC display device according to the present invention.

The present invention

A cyano-based liquid crystal compound as a nematic liquid crystal;

UV-curable polymer precursors as reactive monomers; And

There is provided a polymer dispersed liquid crystal composition comprising a light emitting material of green, red, and blue.

Hereinafter, the present invention will be described in detail.

The polymer dispersed liquid crystal composition according to the present invention is a cyanide-based liquid crystal compound as a nematic liquid crystal; UV-curable polymer precursors as reactive monomers; And a light-emitting material of green, red, and blue.

Polymer dispersed liquid crystal (PDLC) is a structure in which fine liquid crystal droplets are dispersed in a polymer matrix as a support and liquid crystal droplets are oriented in an electric field direction when an electric field is applied. And the refractive indexes of the liquid crystals LC are caused to coincide with each other, thereby making the cell transparent and transmitting light.

Generally, in order to realize a full-color PDLC, a color filter layer using dyes or pigments is indispensably required on the front surface of the PDLC element. The PDLC according to the present invention is characterized by including a light emitting material instead of the color filter layer.

As the nematic liquid crystal, the cyanide-based liquid crystal compound is preferably a cyanobiphenyl compound, a cyph salt mechanical compound, a cyanotaphenyl compound, an Np liquid crystal compound and the like, but is not limited thereto.

The UV-curable polymer precursor is preferably a polyester acrylate, a urethane acrylate, an epoxy acrylate, a polyether acrylate, a polythiol acrylate derivative, a polythiol spiro acetal type or an epoxy resin, but is not limited thereto.

(Dicyanomethylene) -2-methyl-6- [p- (dimethylamino) styryl] -4H-pyran as the light emitting material, coumarin 6 as the green light emitting material, and DCM It is preferably BBOT (2,5-Bis [5'-tert.-butylbenzoxazolyl (2 ')] thiophene or coumarin 466.

The light emitting material may include inorganic green, red, and blue phosphor particles.

The light emitting material may further include green dyes, red dyes and blue dyes, respectively.

Further, according to the present invention,

a) preparing a mixture by mixing a cyano-based liquid crystal compound as a nematic liquid crystal and a UV-curable polymer precursor as a reactive monomer;

b) adding green, red and blue light emitting materials to the mixture of step a) to prepare a sample; And

c) UV curing the sample prepared in step b);

Wherein the polymerizable liquid crystal composition is a liquid crystal composition.

Hereinafter, the process for producing the polymer dispersed liquid crystal composition according to the present invention will be described in detail as follows.

The step a) is a step for preparing a mixture for the production of a PDLC film, wherein a cyano compound and a UV-curable polymer precursor are mixed. At this time, it is preferable to mix the cyano-based liquid crystal and the UV-curable polymer precursor at a weight ratio of 5 to 7: 3 to 5.

The step b) is a step of adding a light-emitting material to the mixture prepared in the step a), wherein the light-emitting material is a light-emitting material of green, red and blue. In this case, each of the light emitting materials is added in an amount of 0.1 to 5 wt%, preferably 1 to 3 wt%, based on the total weight of the sample.

The step c) is preferably a step of curing the sample prepared in the step b), and the UV curing is preferably performed at 500 to 700 mW for 1 to 5 minutes.

The present invention also provides a liquid crystal display device using the polymer dispersed liquid crystal composition.

The liquid crystal display may be manufactured by a method commonly used in the art.

In the case of R-PDLC, G-PDLC and B-PDLC, liquid crystal displays manufactured using the above polymer dispersed liquid crystal composition, the reflectances were 12%, 27% and 6%, respectively, and the transmittances were 50%, 70% And 20%, respectively, and thus it has excellent reflectance and transmittance characteristics.

As described above, the polymer dispersed liquid crystal (PDLC) composition according to the present invention can realize full color without addition of a color filter by adding a light emitting material at the time of manufacturing PLDC, and has an excellent light efficiency. Accordingly, the polymer dispersed liquid crystal composition of the present invention can be usefully used in a polymer dispersed liquid crystal display device.

Hereinafter, preferred embodiments of the present invention will be described in order to facilitate understanding of the present invention. However, the following examples are provided only for the purpose of easier understanding of the present invention, and the present invention is not limited by the examples.

Example 1 Production of polymer dispersed liquid crystal (PL-PDLC) display device using the light emitting material of the present invention

1. Preparation of sample

Nematic liquid crystals and reactive monomers were used to implement the PDLC of the present invention. E7 (cyanobiphenyl mixture; merck) was used as a nematic liquid crystal, and NOA65 (UV-curable prepolymer; Norland product Inc.) was used as a reactive monomer. The mixing ratio of E7: NOA65 was 7: 3, 6: 4 and 5: 5 by weight.

Coumarin 6 as the green light emitting material and DCM (4- (Dicyanomethylene) -2-methyl-6- [p- ( dimethylamino) styryl] -4H-pyran and 2,5-bis [5'-tert.-butylbenzoxazolyl (2 ')] thiophene were used as the blue light emitting material. About 1 to 3% by weight based on the total weight.

2. Preparation of PL-PDLC film

The sample prepared in the above step 1 was placed in a vial, and the mixture was stirred at 50 ° C for 6 minutes in consideration of viscosity conditions and proper mixing of the polymer and liquid crystal. The heating was stopped and the mixture was further diluted for 1 minute. The sample was dropped on a 0.7 mm ITO glass using a capillary tube so that two bubbles were not formed, and then the ITO glass was staggered over the sample. The sample was pressed at a constant pressure to harden the polymer, The PL-PDLC of the present invention was prepared by irradiating UV (intensity: 600 mW) at a wavelength of 650 nm at a temperature of 30 캜 for 2 to 3 minutes.

EXPERIMENTAL EXAMPLE 1 Measurement of reflectance and transmittance of PL-PDLC

The reflectance and transmittance of the PL-PDLC prepared in Example 1 were measured using a CM-3600A spectrometer, and the results are shown in Table 1 below. FIG. 1 shows the cell state at the time of reflection and transmission of the PL-PDLC according to the present invention.

sample reflectivity Transmittance R-PDLC 12% 50% G-PDLC 27% 70% B-PDLC 6% 20% White 15% 47%

As shown in Table 1, the PL-PDLC according to the present invention has excellent reflectance and transmittance characteristics in view of the fact that the transmissivity of existing reflective and transmissive liquid crystal displays is about 10%.

In addition, as shown in FIG. 1, in the case of the reflection state, the voltage is unapplied. In the case of transmission, the voltage is applied. However, by adjusting the refractive indexes of the polymer and the liquid crystal to the same, .

Claims (11)

 A cyano-based liquid crystal compound as a nematic liquid crystal; UV-curable polymer precursors as reactive monomers; And Polymer Dispersed Liquid Crystal (PDLC) display capable of realizing a full-color display using a polymer dispersed liquid crystal composition including green, red and blue light emitting materials. Device. The polymer dispersed liquid crystal display device according to claim 1, wherein the cyano based liquid crystal compound is one selected from the group consisting of a cyanobiphenyl compound, a cyphenyl salt compound, a cyanophenyl compound and an Np liquid crystal compound. The UV-curable polymer precursor according to claim 1, wherein the UV-curable polymer precursor is one selected from the group consisting of polyester acryl, urethane acryl, epoxy acryl, polyether acryl, polythiol acryl derivative, polythiol spiroacetal, A polymer dispersed liquid crystal display device. The light emitting device according to claim 1, wherein the light emitting material is coumarin 6, the red light emitting material is DCM (4- (Dicyanomethylene) -2-methyl- 6- [p- (dimethylamino) styryl] ) And the blue luminescent material is BBOT (2,5-Bis [5'-tert.-butylbenzoxazolyl (2 ')] thiophene) or coumarin 466. The polymer dispersed liquid crystal display device according to claim 1, wherein the light emitting material comprises inorganic green, red and blue phosphor particles. The polymer dispersed liquid crystal display device according to claim 1, wherein the light emitting material further comprises a green dye, a red dye and a blue dye, respectively. The liquid crystal composition according to claim 1,
a) preparing a mixture by mixing a cyano-based liquid crystal compound as a nematic liquid crystal and a UV-curable polymer precursor as a reactive monomer;
b) adding green, red and blue light emitting materials to the mixture of step a) to prepare a sample; And
c) UV curing the sample prepared in step b);
And a polymer dispersed liquid crystal display device. The polymer dispersed liquid crystal display according to claim 7, wherein the nematic liquid crystal compound and the UV-curable polymer precursor are mixed in a weight ratio of 5 to 7: 3 to 5 in the step a). [7] The polymer dispersed liquid crystal display of claim 7, wherein the light emitting material is added in an amount of 0.1 to 5% by weight based on the total weight of the sample in the step b). The polymer dispersed liquid crystal display according to claim 7, wherein the UV curing is performed at 500 to 700 mW for 1 to 5 minutes in the step c). delete

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