CN201194056Y

CN201194056Y - Polymer dispersed LCD bistable film

Info

Publication number: CN201194056Y
Application number: CNU2008200745781U
Authority: CN
Inventors: 范志新; 张志东; 解一军
Original assignee: Hebei University of Technology
Current assignee: Hebei University of Technology
Priority date: 2008-04-29
Filing date: 2008-04-29
Publication date: 2009-02-11
Anticipated expiration: 2018-04-29

Abstract

The utility model relates to a polymer dispersive liquid crystal double stable compound film. The compound film consists of two flexible nesas and a polymer dispersive liquid crystal layer; the two flexible nesas have coplanar switching electrodes etched thereon; the polymer dispersive liquid crystal layer is made of highly active urethane acrylate; the liquid crystal is made up of nematic liquid crystal molecule with large birefringence; the polymer dispersive liquid crystal double stable compound film can be in off phase, i.e. diffused phase, while a coplanar transverse electric field is charged, and keep the diffused phase while the electric field is removed; the coplanar comb electrode can be in on phase, i.e. transparent phase, while an opposite electric field is charged in short circuit, and still keep the transparent phase while the electric field is removed; the polymer dispersive liquid crystal double stable compound film is prepared by mixing the highly active polymer and the nematic liquid crystal with large refraction and separating them to form the polymer infolded liquid crystal micro droplet structure. In the simple technical scheme in the utility model, the zero electric field, by changing the direction of which to realize polymer dispersive liquid crystal, is stable; a more energy saving electronic paper technology is achieved. The film in the utility model can also be used in the architectural ornament or jewwlry counters as a light changing film sandwiched in the glasses.

Description

Polymer dispersed LCD bistable film

Technical field

The utility model relates to a kind of polymer dispersed LCD bistable film, rely on the null field that changes direction of an electric field realization Polymer Dispersed Liquid Crystal stable with simple design proposal, and then the more energy-conservation electronic paper technology of acquisition, perhaps as the dimming function film, be clipped in the glass, can obtain special application in fields such as construction and decoration and jewelry sales counters.

Background technology

Polymer Dispersed Liquid Crystal (Polymer Dispersed Liquid Crystal, be called for short PDLC) be that epoxide resin polymer and nematic liquid crystal and wadding are mixed with certain ratio, be clipped between two flexible transparent conductive films, through being separated, liquid crystal is separated out the formation droplet from polymkeric substance, polymer cure is wrapped in wherein a kind of composite membrane to liquid crystal droplet.During added electric field, because the refractive index and the liquid crystal material refractive index of polymkeric substance do not match, do not cause light scattering, composite membrane is to OFF state only; After applying electric field, the refractive index of polymkeric substance and liquid crystal material refractive index can be mated, and cause transmittance, and composite membrane is to ON state only.Pdlc film is the high-tech product of the invention eighties in 20th century, at dimming glass, and large screen display, many fields such as holographic grating have using value, also still are the problem that the liquid crystal device researcher pays close attention to now.

Existing Electronic Paper (e-paper) scheme has twin color ball to show and technology such as electric ink (e-ink) electrophoresis showed and cholesteric liquid crystal bistable demonstration.Existing cholesteric liquid crystal bistable displaying scheme is polymer network stabilized cholesteric phase liquid crystal (the Polymer Network Cholesteric LiquidCrystal that adopts U.S. University of Kent liquid crystal research institute Yang Dengke etc. to propose, be called for short PNCLC, perhaps Polymer Stabilized Cholesteric Texture, be called for short PSCT), utilize the null field stability property of scattering of multidomain texture and the transmission of network stabilization nematic phase, make liquid crystal enter multidomain texture or nematic phase texture realization bistable by the driven waveform technology.But the problem that exists be driving voltage than higher, poor contrast etc.

Summary of the invention

The purpose of this utility model is to provide a kind of polymer dispersed LCD bistable film, can overcome the deficiencies in the prior art.Adopt highly reactive polymer, make liquid crystal droplet become " the smooth ball of inertia ", rely on the change direction of an electric field to realize the bistable of Polymer Dispersed Liquid Crystal null field with simple design proposal, and then obtain new departure of a kind of e-paper-PDLC, obtain more energy-conservation dimming function film simultaneously, be clipped in the glass, can obtain special application in fields such as construction and decoration and jewelry sales counters, become the new technology of functional glass, new varieties, the new application provides reference for designing new functional glass principle of work.

The polymer dispersed LCD bistable composite membrane that the utility model provides comprises: two flexible transparent conductive films, one layer of polymeric dispersing liquid crystal layer, liquid crystal layer are clipped between two flexible transparent conductive films.Be etched with coplane conversion comb electrode on two conductive films, so as on comb electrode making alive, make the formation transverse electric field; With the comb electrode short circuit, making alive forms the vertical plane electric field on the electrode over there.

Described polymkeric substance is the polymkeric substance with the modification of activating agent, and as having added surfactant tween and lecithin in the prepolymer urethane acrylate again, making polymer interface is weak grappling effect to liquid crystal molecule; Be etched with comb electrode on the described transparent film film; The liquid crystal droplet that the smooth ball of inertia is arranged in the described polymkeric substance; Described refractive index polymer is chosen as n _p=1.52, the liquid crystal ordinary refraction index is n _o=1.52, liquid crystal very optical index is n _eMore than=1.74; Described polymer dispersed LCD bistable composite membrane is in OFF state-scattering states when applying the coplane transverse electric field, removes electric field and still keeps scattering states; Be in ON state-clear state when the short circuit of coplane comb electrode is applied the opposite electric field, remove electric field and still keep clear state.

The manufacture method of polymer dispersed LCD bistable composite membrane is suitable for the PDLC manufacturing technology, can be the ultraviolet light polymerization phase detachment technique, also can be heat curing phase detachment technique etc.

The step that the manufacture method of the polymer dispersed LCD bistable film that the utility model provides comprises:

1) active prepolymer and big birefringence nematic liquid crystal material and an amount of wadding stir and mix;

2) two flexible transparent conducting film inboards, outside etch pectination coplane transfer electron;

3) between the nematic liquid crystal of high activity prepolymer that mixes and big birefringence difference and two flexible transparent conducting films that wadding is transferred to coplanar electrodes;

4) with the pressing machine two flexible transparent conducting films that printed prepolymer and liquid crystal compound are squeezed into composite membrane;

5) composite membrane is separated, liquid crystal is fully separated out from polymkeric substance, form the liquid crystal droplet of 2-2.7 micron diameter size.

6) two flexible transparent conducting films are processed contact conductor, between pectination coplane transfer electron, apply transverse electric field (as 10 volts), make liquid-crystal refractive-index more than 1.63,, present scattering states, and null field is stable greater than refractive index polymer 1.52;

7) the short circuit of pectination coplane transfer electron, apply longitudinal electric field (as 3 volts) over there between electrode, make liquid-crystal refractive-index equal refractive index polymer 1.52, present clear state, and null field is stable.

Described active prepolymer is the prepolymer that has added the urethane acrylate system of surfactant tween and lecithin; The big birefringence difference of described nematic liquid crystal is n _e-n _o=Δ n 〉=0.2 (is the clear PDLC of the producing liquid crystal LC-1 etc. of immortality China.)

Described wadding diameter is 10 microns plastic microspheres.

Described prepolymer and nematic liquid crystal are pressed mass ratio: 1:1.

The polymkeric substance of the utility model polymer dispersed liquid crystal layer adopts the polymkeric substance of activating agent modification, liquid crystal adopts the big nematic liquid crystal of moment of inertia, make that liquid crystal droplet becomes in polymkeric substance " the smooth ball of inertia ", when applying transverse electric field, the liquid crystal molecule director is arranged along face, still can keep this along the face ordered state after removing electric field; When applying the vertical plane electric field, liquid crystal molecule director vertical plane is arranged, and still can keep this vertical plane ordered state after removing electric field.Liquid-crystal refractive-index and refractive index polymer were complementary when the design vertical plane was arranged, and presented transparent " ON state "; Liquid-crystal refractive-index and refractive index polymer do not match when face is arranged, and present " OFF state " of scattering." ON state " all is the null field steady state (SS) with " OFF state ".

Polymkeric substance is the optical isotropy material, refractive index n _pExpression.Nematic liquid crystal is a rodlike molecule, and the molecular long axis orientation is keeping intermolecular ordered state parallel to each other, and the center of gravity of molecule is confusing, but the director of molecule is unanimous on the whole.Nematic liquid crystal is an optical anisotropic material, refractive index ordinary refraction index n _oUnusual optical index n _eExpression.When not having added electric field, the Liquid Crystal Molecules Alignment in the different liquid crystal droplets is pointed to stochastic distribution, shows as body mean refractive index effect on the optics, can be write as

{\overset{&OverBar;}{n}}_{b} = \frac{1}{3} (2 n_{o} + n_{e}) .

If selective polymer refractive index n _pUnequal with the liquid crystal mean refractive index, and difference is also bigger, and then light causes light scattering because of the refractive index sudden change at the interface at polymkeric substance and liquid crystal droplet.The general thick 20 μ m of pdlc film, liquid crystal droplet diameter 1-4 μ m, through repeatedly scattering, transmitted light weakens, and scattered light strengthens, and pdlc film is looked as frosted glass.When applying electric field, the Liquid Crystal Molecules Alignment in the liquid crystal droplet is all pointed to direction of an electric field, shows as refractive index and equals ordinary refraction index n _oIf, design alternative refractive index polymer n _pWith liquid crystal ordinary refraction index n _oEquate that light can not cause light scattering at the interface at polymkeric substance and liquid crystal droplet, then pdlc film just becomes pellucidity.Be perpendicular to beam direction if apply the direction of electric field, then liquid crystal molecule turns to direction of an electric field, and for radiation direction, liquid-crystal refractive-index shows as the face mean refractive index

{\overset{&OverBar;}{n}}_{a} = \frac{1}{2} (n_{o} + n_{e}) .

Cholesteric liquid crystal is a kind of liquid crystal with helical structure, is a kind of special shape of nematic liquid crystal.The structure of cholesteric liquid crystal is to be arranged in layer structure, molecular long axis is arranged in parallel alike with nematic liquid crystal in each plane layer, molecular long axis deflection gradually between layer and the layer, form spiral fashion, its spontaneous twisted spindle is called screw axis, and the major axis of molecule is oriented in and revolves the basal spacing that restores after the three-sixth turn and be called pitch.In liquid crystal cell,, be called planar texture when cholesteric liquid crystal helical axis directions vertical surface; When the distribution at random in any direction of cholesteric liquid crystal helical axis directions, be called focal conic texture; As apply electric field and can remove helical structure, form the field and cause nematic phase.And the silk chain polymerization thing that has vertical plane to arrange in the liquid crystal cell, can multidomain burnt awl attitude and field cause the nematic phase state all null field settle out; And the silk chain polymerization thing of arranging along face arranged in the liquid crystal cell, also can plane attitude and the burnt awl of multidomain attitude all null field settle out.

Liquid crystal molecular orientation in the tradition pdlc film nematic liquid crystal droplet can not bistable, the tens of volts of operating voltage, nearly ten watts every square metre of ON state power consumption; And the screw axis in pdlc film cholesteric liquid crystal droplet orientation can bistable, but it is high a lot of that operating voltage is wanted, apply big electric field and cholesteric liquid crystal is driven to show up cause nematic phase, remove electric field fast and will flush to planar texture, ladder removes electric field slightly slowly will flush to focal conic texture again.Planar texture is liquid crystal screw axis vertical film surface, if avoid visible light Bragg reflection wave band, refractive index presents the face mean refractive index, helps transmittance; Focal conic texture is that screw axis distributes in any direction at random in a jumble, and refractive index presents the body mean refractive index, helps light scattering.Traditional pdlc film is owing to the grappling effect of polymkeric substance to liquid crystal, making place, liquid crystal droplet median surface liquid crystal molecule be aggregated the thing intense beam ties up, can not turn to direction of an electric field, cause pdlc film " ON state " transparent inadequately, " OFF state " is white inadequately again, traditional pdlc film just can be worked as electric-controlled light-regulating glass usefulness, is used in the demonstration field and is not had an optimistic view of by people.But there are some researches show that the polymkeric substance of acrylic acid system is more weak to the grappling effect of liquid crystal molecule, in polymkeric substance, add surfactant again and can reduce the grappling effect of polymkeric substance greatly liquid crystal.Polymer interface can make liquid crystal molecule arrange along face as another, and lecithin can make the liquid crystal molecule vertical plane arrange, and therefore adopts surfactant and lecithin to polymer modification, makes liquid crystal droplet become " smooth ball " in the polymkeric substance parcel.There has been rete very thin, but scattering states very white (comparable) with blank sheet of paper, transmission state is very bright again, operating voltage only has the PDLC product of several volts to occur, if can form the null field bistable again then just may become the candidate of Electronic Paper scheme, therefore, the utility model has application prospect in Electronic Paper and dimming glass field.

Compared with the prior art the utility model has following advantage:

1, existing PDLC technology obtains increasing the application as dimming glass in top-grade building finishing field, and in large screen display, holographic grating, there is application prospect in fields such as Electronic Paper.Coplanar electrodes are employed at high-end Thin Film Transistor-LCD (TFT-LCD) as coplane switch (IPS), because the utility model handle " coplane " and " opposite " bifunctional electrodes and highly reactive polymer and large rotating inertia nematic liquid crystal connect, the utility model has been opened up " highly reactive polymer " notion and large rotating inertia nematic liquid crystal " the smooth ball of inertia " and has been made polymer dispersed LCD bistable composite membrane frontier, rely on the null field that changes direction of an electric field realization Polymer Dispersed Liquid Crystal stable with simple design proposal, and then the more energy-conservation electronic paper technology of acquisition, so the utility model is e-paper-PDLC new departure, it can be the null field bistable new product of PDLC dimming glass, can be used as the dimming function film, be clipped in the glass, can obtain special application in fields such as construction and decoration and jewelry sales counters.

Description of drawings

Fig. 1, polymer dispersed LCD bistable structure of composite membrane synoptic diagram of the present utility model.

Fig. 2, polymer dispersed LCD bistable composite membrane coplanar-electrode structure synoptic diagram of the present utility model.

Fig. 3, polymer dispersed LCD bistable composite membrane principle of work synoptic diagram of the present utility model.

Fig. 4, polymer dispersed LCD bistable composite membrane manufacture method synoptic diagram of the present utility model.

Embodiment

The utility model is described in further detail below in conjunction with drawings and Examples.The polymer dispersed LCD bistable composite membrane is produced in the ultrapurification workshop, production equipment mainly comprises ultrapure washed with de-ionized water machine, the photoresist coating machine, uv-exposure machine, developing fixing pond, harsh pond, prepolymer and liquid crystal mixing and blending machine, prepolymer coating machine, pressing machine, platform sealing ultra-violet curing machine, microtome etc.

The high activity prepolymer that the utility model uses is the prepolymer (the mass ratio 100:1-4 of prepolymer and surfactant, tween: lecithin is 1:1) that has added the urethane acrylate system of surfactant tween and lecithin.The diluting monomer kind that the utility model uses has isobornyl acrylate (IBOA), 1,6 hexanediyl ester (HDDA), trimethylolpropane triacrylate (TMPTA) and 2-(2-ethoxy ethoxy) ethyl propylene acid esters (EOEOEA) etc.The prepolymer that the utility model uses is the product urethane acrylate CN966J75 (the mass ratio 100:1 of prepolymer and light trigger) of Sartomer company.The light trigger that the utility model uses is TPO-1,4,6 (trimethylbenzoyl) diphenyl phosphine oxide (product of Ying Li group of Qing Hua Ziguang).The surfactant Tween 80 is selected blue star auxiliary reagent factory, Xingtai product for use, and lecithin is selected Beijing Merya's Lecithin Co., Ltd.'s product for use.Big birefringence nematic liquid crystal material is the immortality China clear PDLC of producing liquid crystal LC-1.

Referring to Fig. 1, polymer dispersed LCD bistable structure of composite membrane synoptic diagram of the present utility model.Electrically conducting transparent thin layer electrode 102,104 is arranged, sandwich polymer dispersed liquid crystal layer 103 above the flexible and transparent film 101,105.

Referring to Fig. 2,

electrode

102 and 104 is etched into pectination coplane transfer electron (IPS), electrode width 15 μ m, 15 μ m at interval.Polymer dispersed liquid crystal layer 103 thickness 10 μ m, the about 2.7 μ m of liquid crystal droplet 106 diameters, refractive index polymer is chosen as n _p=1.52, liquid crystal ordinary refraction index n _o=1.52, unusual optical index n _e=1.74.

Referring to Fig. 3, as a utmost point, when applying the opposite Electrode Field, liquid-crystal refractive-index is got ordinary refraction index n with the coplanar electrodes short circuit _o=1.50, the ON state pdlc film is a clear state 301, removes electric field and still remains on pellucidity.When applying the coplanar electrodes electric field, liquid-crystal refractive-index is got the face mean refractive index

{\overset{&OverBar;}{n}}_{a} = \frac{1}{2} (n_{o} + n_{e}) = 1.63,

The OFF state pdlc film is a scattering states 302, removes electric field and still remains on scattering state.

Referring to Fig. 4, Polymer Dispersed Liquid Crystal composite membrane manufacture method synoptic diagram of the present utility model.

A, high activity prepolymer (having added the prepolymer of the urethane acrylate system of surfactant tween and lecithin) and big birefringence nematic liquid crystal material and 10 microns an amount of wadding stir and mix, and prepolymer mixes in the 1:1 ratio with nematic liquid crystal;

B, two flexible transparent conducting film inboards, outside etch pectination coplane transfer electron 102,104;

C, the high activity prepolymer that mixes and big birefringence nematic liquid crystal and wadding print-on coating to 401 are had between two flexible transparent conducting films 402,403 of coplanar electrodes;

D, two flexible transparent conducting films that have been coated with prepolymer and liquid crystal compound are squeezed into composite membrane 404 with the pressing machine;

E, composite membrane is separated, liquid crystal is fully separated out from polymkeric substance, when forming the about 2.7 microns liquid crystal droplet of mean diameter, be cured (be separated and to solidify processing can be UV-curing technology or adopt heat curing);

F, two flexible transparent conducting films are processed contact conductor, between pectination coplane transfer electron, apply about 10 volts of transverse electric fields, make liquid-crystal refractive-index 1.63, present scattering states, and null field is stable greater than refractive index polymer 1.52;

G. the short circuit of pectination coplane transfer electron, apply about 3 volts longitudinal electric field over there between electrode, make liquid-crystal refractive-index equal refractive index polymer 1.52, present clear state, and null field is stable.

Claims

1. polymer dispersed LCD bistable film is characterized in that it comprises:

Two flexible transparent conductive films;

Polymer dispersed liquid crystal layer is clipped between two flexible transparent conductive films;

Coplane conversion comb electrode is etched on two conductive films, so as on comb electrode making alive, make the formation transverse electric field, with the comb electrode short circuit, making alive forms the vertical plane electric field on the electrode over there.

2. polymer dispersed LCD bistable film according to claim 1 is characterized in that described polymkeric substance is polymer-modified with activating agent; Described polymer-modified be to have added surfactant tween and lecithin in the urethane acrylate, making polymer interface is weak grappling effect to liquid crystal molecule.

3. polymer dispersed LCD bistable film according to claim 1 is characterized in that having in the described polymkeric substance liquid crystal droplet of the smooth ball of inertia.

4. polymer dispersed LCD bistable film according to claim 1 is characterized in that described refractive index polymer is chosen as n _p=1.52, the liquid crystal ordinary refraction index is n _o=1.52, liquid crystal very optical index is n _e=1.74.