CN109782505A - A kind of reflective film and preparation method thereof with light erasing function - Google Patents

Abstract

The invention discloses a kind of reflective film and preparation method thereof with light erasing function, the film includes: the perfusion photoresponse cholesteric liquid crystal compound system among ito thin film, and compacting forms liquid crystal film；The photoresponse cholesteric liquid crystal compound system includes main body small molecule liquid crystal material, chiral spiral shell vinyl compound, chipal compounds, polymerisable monomer and photoinitiator.The present invention is by simple technique, and prepared reflective display films have high brightness and the pressure of high contrast writes reflection display function, the light erasing function of large area electrically erasable function and small area selection area.

Description

A kind of reflective film and preparation method thereof with light erasing function

Technical field

The invention belongs to liquid crystal intelligence and display material applied technical field, and specifically, the present invention provides one kind to have The reflective film and preparation method thereof of light erasing function.

Background technique

Since 21st century, as social economy develops rapidly, global non-renewable energy resources are increasingly depleted, the energy Imbalance between supply and demand is outstanding day by day, and the service efficiency for how improving the energy becomes a global problem, and energy-saving and environment-friendly theory is Penetrate into the every aspect of human society life.

In the past 20 years, liquid crystal material flourishes always.From the electronic watch to come into vogue, LCD TV, mobile phone are arrived, then is arrived Present Electronic Paper, e-book, liquid crystal using more and more extensive in people's daily life.Therefore, develop energy-efficient liquid Brilliant display technology is of great significance.

For cholesteric liquid crystal molecule due to its unique helicoidal structure, it is various special to have under different alignment conditions Optical characteristics, such as selective reflecting, circular dichroism, optical activity, beam divergence property.These optical characteristics make cholesteric liquid crystal exist Numerous areas has a wide range of applications, and is frequently used to the optical device that preparation has energy-saving environmental-protection function.In consideration of it, applicant A kind of reflective film with light erasing function is developed, this reflective film has high brightness and the pressure of high contrast is write Reflect display function, the light erasing function of large area electrically erasable function and small area selection area.

Summary of the invention

It is an object of that present invention to provide a kind of reflective films and preparation method thereof with light erasing function, by simple Technique, prepared film has high brightness and the pressure of high contrast writes reflection display function, large area electrically erasable function Function is wiped with the light of small area selection area.

In order to achieve the above objectives, present invention employs the following technical solutions:

A kind of reflective film with light erasing function, the film include:

Photoresponse cholesteric liquid crystal compound system, the liquid that compacting is formed with a thickness of 2 μm -50 μm are perfused among ito thin film Brilliant film；

The photoresponse cholesteric liquid crystal compound system includes that the main body that mass fraction is 60.0wt%-95.0wt% is small Chiral spiral shell vinyl compound, the mass fraction 0.2wt%- that molecular liquid crystal material, mass fraction are 0.1wt%-15.0wt% The chipal compounds of 30.0wt%, the liquid crystal liquid crystal property polymerisable monomer of 0.0wt%-20.0wt%, 0.0wt%-20.0wt% it is non- The photoinitiator of liquid crystal liquid crystal property polymerisable monomer and 0.1wt%-5.0wt%.

Preferably, the chipal compounds are selected from one of S811, R811, S1011, R1011, S5011 and R5011 Or it is several.

Further, the photoresponse cholesteric liquid crystal compound system further includes up-conversion luminescence nanomaterial, it is described on The matrix of Illuminant nanometer material is converted as one of NaYF4, NaGdF4 and NaYbF4 ingredient simple substance or Multiple components complex nucleus Shell structure, the doping with rare-earth ions element in mesostroma includes one or more of Yb, Tm, Er, Ho, Nd and Mn.

The present invention also provides the preparation method of the above-mentioned reflective film with light erasing function, the preparation method includes Following steps:

1) by mass fraction be 60.0wt%-95.0wt% main body small molecule liquid crystal material, mass fraction be The chiral spiral shell vinyl compound of 0.1wt%-15.0wt%, the chipal compounds that mass fraction is 0.2wt%-30.0wt%, The liquid crystal liquid crystal property polymerisable monomer of 0.0wt%-20.0wt%, the non-liquid crystal property polymerisable monomer of 0.0wt%-20.0wt% and The photoinitiator mixture of 0.1wt%-5.0wt% is uniform and obtains having the mixed liquid crystal of very wide cholesteric phase temperature range compound System；

2) photoresponse cholesteric liquid crystal compound system is pressed into liquid crystal film with plastics ito thin film, by separation pad or Glass microballoon controls the thickness of liquid crystal device；

3) as shown in Figure 1, applying an electric field to liquid crystal film, the burnt cone for making liquid crystal molecule be in non-reflective state is knitted Structure, and light irradiation polymerization is carried out in its cholesteric phase temperature range；Electric field, the liquid crystal after polymerization are closed after light irradiation polymerization It will form polymer network inside film.

In the preparation method of the above-mentioned reflective film with light erasing function, chiral helicene class described in step 1 The helical twisting power for closing object has the characteristic to change under exciting light (300-460nm) irradiation, preferably, chiral helicene Class compound is selected from the one or more of following compound:

Formula (1) described R₁–R₉Selected from for H atom, phenyl ring, C_nH_2n+1Alkyl chain, OC_nH_2n+1Oxyalkyl chain or R₁–R₉It is selected from One or more of following group, it is 1-12 that n, which is selected from,；

In the preparation method of the above-mentioned reflective film with light erasing function, chipal compounds described in step 1) are One or more kinds of chipal compounds, it is preferable that the following are the chipal compounds that can be used in the present invention, but are not limited to these Material:

In the preparation method of the above-mentioned reflective film with light erasing function, main body small molecule liquid described in step 1) Crystalline substance is the mixture of nematic liquid crystal or cholesteric liquid crystal or nematic liquid crystal and cholesteric liquid crystal.Preferably, the main body Small molecule liquid crystal material is nematic liquid crystal SLC1717 or nematic liquid crystal E7.

In the preparation method of the above-mentioned reflective film with light erasing function, non-liquid crystal property described in step 1) can gather It is optional but be not limited to following one or more to close monomer, as unsaturated polyester (UP), epoxy acrylate, urethane acrylate, Polyester acrylate, epoxy acrylate, polyenoid thiol, polyether acrylate, water-and acrylate, vinyl ethers Deng.

In the preparation method of the above-mentioned reflective film with light erasing function, liquid crystal liquid crystal property used in step 1) is polymerizable Monomer is one or more kinds of chiral or achiral liquid crystal monomers, and the following are the polymerizable lists of the liquid crystal liquid crystal property that can be used in the present invention Body, but it is not limited to these materials:

In the preparation method of the above-mentioned reflective film with light erasing function, photoinitiator used in step 1), For benzoin isopropyl ether (Irgacure 651), the fluoro- 3- pyrroles's phenyl titanocenes (Irgacure 784) of double 2,6- bis- and hexichol One of ketone is a variety of, but is not limited to these materials.

In the preparation method of the above-mentioned reflective film with light erasing function, preferably, the light irradiation is poly- The irradiation optical wavelength of conjunction is any wave band within the scope of 300-500nm, and light irradiation time is -1 hour 5 minutes, irradiates luminous intensity For 1 μ W/cm²-500mW/cm²。

In the preparation method of the above-mentioned reflective film with light erasing function, preferably, the liquid crystal film With a thickness of 2 μm -50 μm.

As shown in Fig. 2, the liquid crystal film that the present invention is prepared has high brightness and the pressure of high contrast writes reflection The light of display function, large area electrically erasable function and small area selection area wipes function:

1) cholesteric liquid crystal of liquid crystal film is presented non-reflective burnt cone in original state and is knitted due to the effect of polymer network Structure (a)；

2) pressure is applied to the region for needing to be written information above liquid crystal film, since the boundary effect of film substrate is compeled Cholesteric liquid crystal is set to form planar texture, and reflected wavelength lambda=n × p₀Visible light, wherein n is that cholesteric liquid crystal being averaged Refractive index, p₀For the initial screw pitch of cholesteric liquid crystal, this state can keep stablizing constant for a long time, that is, realize pressure book Write reflection display function (b)；

3) electric field is applied to liquid crystal film, all liquid crystal molecules form the burnt cone of random arrangement under the action of electric field Texture, and the information that the cholesteric liquid crystal for erasing planar orientation before this is saved realize full frame large area electrically erasable function Energy (c)；

4) to erasure information region is needed in liquid crystal film, i.e. the cholesteric liquid crystal in planar texture carries out exciting light spoke According to changed in the screw pitch of cholesteric liquid crystal simultaneously as the disturbance of liquid crystal molecule and the effect of polymer network, cholesteric Phase liquid crystal molecule is changed into conical texture, erases the information that the cholesteric liquid crystal of planar orientation before this is saved, realizes small The accurate light of surface area wipes function (d)；

5) after closing electric field or exciting light, cholesteric liquid crystal molecule still keeps burnt under the action of polymer network Bore the non-reflective state (a) of texture.

It can realize that the pressure of liquid crystal film writes reflection display, full frame electrically erasable and accurate area by above-mentioned mode Domain light wipes function.

Preferably, the exciting light radiation parameter in light erase process: appointing within the scope of a length of 300-460nm of excitation light wave Meaning wave band, exciting light irradiation time are -1 hour 1 second, and excitating light strength is 1.0 μ W/cm²–300.0W/cm²。

Further, when adding up-conversion luminescence nanomaterial in photoresponse cholesteric liquid crystal compound system, due to Long-wave band exciting light can be converted into short-wave band transmitting light in situ by up-conversion luminescence nanomaterial, and excitation wavelength range can To widen to 300-1500nm, wherein the matrix of up-conversion luminescence nanomaterial is NaYF₄、NaGdF₄And NaYbF₄It is a kind of at Point simple substance or the compound core-shell structure of Multiple components, the doping with rare-earth ions element in mesostroma include Yb, Tm, Er, Ho, Nd and The one or more of Mn.

In conclusion compared with prior art, the present invention having the advantage that

1. the preparation method of the reflective film with light erasing function of the invention, material therefor is from a wealth of sources, synthesis letter Single, low in cost, simple processing is conducive to large area production.

2. the preparation method of the reflective film with light erasing function of the invention, by selecting different nematic phase liquid The type of brilliant, chiral spiral shell vinyl compound, chipal compounds, polymer monomer, photoinitiator and upper transformation Illuminant nanometer material And ratio, adjust the wavelength of exciting light and the intensity of irradiation, environment temperature, liquid crystal device substrate and thickness, it is available pre- The reflective film with different regulation and control models, different regulation speed and different display modes first set.

3. the reflective film with light erasing function of the invention, using photoresponse cholesteric liquid crystal in pressure, electric field, light Responsiveness variation under the conditions of irradiation etc., can be transformed into different optical textures, and corresponding light is presented in polymer network Learn performance, i.e. reflective condition and non-reflective state.Wherein exciting light control technique has contactless remote operation, light source can replace It changes, regulate and control the features such as accurate, realize the accurate light erasing function of small area selection area.

Detailed description of the invention

Fig. 1 is the preparation process with the reflective film of light erasing function；

Fig. 2 is that the pressure of reflective film writes the principle signal of display, full frame electrically erasable and accurate area light erase process Figure；

Fig. 3 is pictorial diagram of the reflective film in pressure writing, light erasing and electrically erasable process of the preparation of embodiment 1；

Fig. 4 is the reflective film of the preparation of embodiment 1 in information display area and without the reflectance spectrum of information display area；

Fig. 5 is the interior polymer network structure of reflective film prepared by embodiment 1.

Specific embodiment

With the drawings and specific embodiments, the present invention is described in further detail below, but the present invention is not limited to this A little embodiments.

Embodiment 1:

By chiral spiral shell vinyl compound (left-handed)/R5011 (dextrorotation)/polymerizable list of nematic liquid crystal SLC1717/ liquid crystal liquid crystal property Proportionally 3.00/4.30/87.20/5.00/0.50 (wt%) is blended body/photoinitiator Irgacure 651, modulates light and rings Answer cholesteric liquid crystal compound system.The glass microballoon (5 μm) that mass fraction is 0.50wt% is added to photoresponse cholesteric first In phase crystal compound system and it is uniformly mixed；Then obtained compound system is placed in two panels ito thin film, is squeezed and is made by roller At liquid crystal film；AC field (5V, 100Hz) is applied to liquid crystal film by ITO conductive layer, so that liquid crystal molecule is formed burnt cone and knits Structure then irradiates (365nm, 2.0mW/cm using light²) 30min photopolymerization processing is carried out to liquid crystal film, finally it is prepared Liquid crystal handwriting pad.

As shown in figure 3, carrying out pressure writing, the information of available " PKU " printed words on liquid crystal handwriting pad；Use excitation Light (410nm, 10.0mW/cm²) irradiation 5s is carried out to " K " printed words therein after, can be carried out light erasing, and " P " on side " U " printed words remain unchanged；AC field (5V, 100Hz) is applied to liquid crystal board, all display information can be carried out to electric wiping It removes.

Reflectance spectrum test is carried out to reflective film using fiber spectrometer, as shown in figure 4, the display information area can be learnt The visible light of domain reflection is in 520nm or so, and non-display information area will not reflect any visible light.

Reflective film is immersed in cyclohexane solution 5 days, the small molecule liquid crystal in film is washed away, utilizes scanning electron microscope pair Polymer network structure inside film is characterized, as shown in Figure 5.

The structural formula of liquid crystal liquid crystal property polymerisable monomer described in the present embodiment is as follows:

The structural formula of chiral spiral shell vinyl compound described in the present embodiment is as follows:

Embodiment 2:

By chiral spiral shell vinyl compound (left-handed)/non-liquid crystal property polymerisable monomer of R1011 (dextrorotation)/nematic liquid crystal E7// Liquid crystal liquid crystal property polymerisable monomer/photoinitiator Irgacure 784 proportionally 4.50/11.90/79.7/1.00/2.40/0.50 (wt%) it is blended, modulates photoresponse cholesteric liquid crystal compound system.The glass microballoon for being first 0.50wt% by mass fraction (10 μm) are added in photoresponse cholesteric liquid crystal compound system and are uniformly mixed；Then obtained compound system is placed in two panels In ito thin film, liquid crystal film is crushed to by roller；By ITO conductive layer to liquid crystal film apply AC field (5V, 100Hz), so that liquid crystal molecule is formed conical texture, then, irradiate (480nm, 20.0mW/cm using light²) liquid crystal film is carried out 30min photopolymerization processing, is finally prepared liquid crystal handwriting pad.

Pressure writing, the display information of available reflection visible light (480nm) are carried out on liquid crystal handwriting pad；Using sharp Shine (380nm, 20.0mW/cm²) irradiation 2s is carried out to part display information after, can be carried out light erasing, and other displays Information remains unchanged；AC field (5V, 100Hz) is applied to liquid crystal board, all display information can be subjected to electrically erasable.

The structural formula of non-liquid crystal property polymerisable monomer described in the present embodiment is as follows:

The structural formula of liquid crystal liquid crystal property polymerisable monomer described in the present embodiment is as follows:

The structural formula of chiral spiral shell vinyl compound described in the present embodiment is as follows:

Embodiment 3:

By chiral spiral shell vinyl compound (dextrorotation)/S5011 (left-handed)/nanoparticle NaGdF₄:Mn@NaYF₄: Er, Nd/ to The non-liquid crystal property polymerisable monomer of column phase liquid crystal SLC1717//liquid crystal liquid crystal property polymerisable monomer/photoinitiator benzophenone is proportionally 6.30/5.60/1.50/81.20/1.20/3.80/0.40 (wt%) is blended, photoresponse cholesteric liquid crystal compound system is modulated. The glass microballoon (7.5 μm) that mass fraction is 0.50wt% is added in photoresponse cholesteric liquid crystal compound system and is mixed first It closes uniform；Then obtained compound system is placed in two panels ito thin film, liquid crystal film is crushed to by roller；It is led by ITO Electric layer applies AC field (5V, 100Hz) to liquid crystal film, so that liquid crystal molecule is formed conical texture and is then irradiated using light (350nm, 5.0mW/cm²) 60min photopolymerization processing is carried out to liquid crystal film, liquid crystal handwriting pad is finally prepared.

Pressure writing, the display information of available reflection visible light (600nm) are carried out on liquid crystal handwriting pad；Using sharp Shine (850nm, 40.0mW/cm²) irradiation 3s is carried out to part display information after, can be carried out light erasing, and other displays Information remains unchanged；AC field (5V, 100Hz) is applied to liquid crystal board, all display information can be subjected to electrically erasable.

The structural formula of non-liquid crystal property polymerisable monomer described in the present embodiment is as follows:

The structural formula of liquid crystal liquid crystal property polymerisable monomer described in the present embodiment is as follows:

The structural formula of chiral spiral shell vinyl compound described in the present embodiment is as follows:

Embodiment 4:

Chiral spiral shell vinyl compound (dextrorotation)/non-liquid crystal property of S1011 (left-handed)/nematic liquid crystal SLC1717/ is polymerizable Proportionally 2.50/12.50/78.6/5.7/0.70 (wt%) is blended monomer/photoinitiator Irgacure 651, modulates light Respond cholesteric liquid crystal compound system.The glass microballoon (3 μm) that mass fraction is 0.30wt% is added to photoresponse gallbladder first In steroid phase crystal compound system and it is uniformly mixed；Then obtained compound system is placed in two panels ito thin film, is squeezed by roller Liquid crystal film is made；AC field (5V, 100Hz) is applied to liquid crystal film by ITO conductive layer, liquid crystal molecule is made to form burnt cone Texture then irradiates (365nm, 2.0mW/cm using light²) 60min photopolymerization processing is carried out to liquid crystal film, finally it is prepared into To liquid crystal handwriting pad.

Pressure writing, the display information of available reflection visible light (580nm) are carried out on liquid crystal handwriting pad；Using sharp Shine (425nm, 90.0mW/cm²) irradiation 3s is carried out to part display information after, can be carried out light erasing, and other displays Information remains unchanged；AC field (5V, 100Hz) is applied to liquid crystal board, all display information can be subjected to electrically erasable.

The structural formula of non-liquid crystal property polymerisable monomer and ratio described in the present embodiment are as follows:

For 80wt%；

For 20wt%；

The structural formula of chiral spiral shell vinyl compound described in the present embodiment is as follows:

Embodiment 5:

By chiral spiral shell vinyl compound (dextrorotation)/S5011 (left-handed)/nanoparticle NaGdF₄:Mn@NaYF₄: Er, Nd/ to The non-liquid crystal property polymerisable monomer/photoinitiator Irgacure 784 of column phase liquid crystal SLC1717/ proportionally 4.80/3.40/ 1.00/82.60/7.20/1.00 (wt%) is blended, and modulates photoresponse cholesteric liquid crystal compound system.First by mass fraction Glass microballoon (12.5 μm) for 0.30wt% is added in photoresponse cholesteric liquid crystal compound system and is uniformly mixed；Then will Obtained compound system is placed in two panels ito thin film, is crushed to liquid crystal film by roller；It is thin to liquid crystal by ITO conductive layer Film applies AC field (5V, 100Hz), and liquid crystal molecule is made to form conical texture, then, irradiates (500nm, 50.0mW/ using light cm²) 60min photopolymerization processing is carried out to liquid crystal film, liquid crystal handwriting pad is finally prepared.

Pressure writing, the display information of available reflection visible light (510nm) are carried out on liquid crystal handwriting pad；Using sharp Shine (920nm, 60.0mW/cm²) irradiation 2s is carried out to part display information after, can be carried out light erasing, and other displays Information remains unchanged；AC field (5V, 100Hz) is applied to liquid crystal board, all display information can be subjected to electrically erasable.

The structural formula of non-liquid crystal property polymerisable monomer and ratio described in the present embodiment are as follows:

For 75wt%；

For 25wt%；

The structural formula of chiral spiral shell vinyl compound described in the present embodiment is as follows:

It should be noted last that the above examples are only used to illustrate the technical scheme of the present invention and are not limiting.Although ginseng It is described the invention in detail according to embodiment, it will be apparent to an ordinarily skilled person in the art that technical side of the invention Case is modified or replaced equivalently, and without departure from the spirit and scope of technical solution of the present invention, should all be covered in the present invention Scope of the claims in.

Claims (9)

1. a kind of reflective film with light erasing function, which is characterized in that the film includes:

Photoresponse cholesteric liquid crystal compound system is perfused among ito thin film, compacting forms thin with a thickness of 2 μm -50 μm of liquid crystal Film；

The photoresponse cholesteric liquid crystal compound system includes the main body small molecule that mass fraction is 60.0wt%-95.0wt% Chiral spiral shell vinyl compound, the mass fraction 0.2wt%- that liquid crystal material, mass fraction are 0.1wt%-15.0wt% The chipal compounds of 30.0wt%, the liquid crystal liquid crystal property polymerisable monomer of 0.0wt%-20.0wt%, 0.0wt%-20.0wt% it is non- The photoinitiator of liquid crystal liquid crystal property polymerisable monomer and 0.1wt%-5.0wt%.

2. the reflective film according to claim 1 with light erasing function, which is characterized in that the main body small molecule liquid Brilliant material is nematic liquid crystal SLC1717 or nematic liquid crystal E7.

3. the reflective film according to claim 1 with light erasing function, which is characterized in that the chirality helicene class Close the one or more that object is selected from compound shown in following formula:

In formula, R₁–R₉Selected from H atom, phenyl ring, C_nH_2n+1Alkyl chain, OC_nH_2n+1One or more of oxyalkyl chain, n, which is selected from, is 1-12；

Or R₁–R₉Selected from one or more of following group, it is 1-12 that n, which is selected from,；

4. the reflective film according to claim 1 with light erasing function, which is characterized in that the chipal compounds Selected from one or more of S811, R811, S1011, R1011, S5011 and R5011.

5. the reflective film according to claim 1 with light erasing function, which is characterized in that the photoresponse cholesteric phase Crystal compound system further includes up-conversion luminescence nanomaterial, and the matrix of the up-conversion luminescence nanomaterial includes NaYF₄、 NaGdF₄And NaYbF₄One of ingredient simple substance or the compound core-shell structure of Multiple components, the doping with rare-earth ions in mesostroma Element includes one or more of Yb, Tm, Er, Ho, Nd and Mn.

6. the reflective film according to claim 1 with light erasing function, which is characterized in that the reflective film has height The pressure of brightness and high contrast writes the light erasing of reflection display function, large area electrically erasable function and small area selection area Function, specifically:

1) non-reflective conical texture is presented in original state due to the effect of polymer network for the cholesteric liquid crystal of liquid crystal film；

2) pressure is applied to the region for needing to be written information above liquid crystal film, since the boundary effect of film substrate forces gallbladder Steroid phase Formation of liquid crystals planar texture, and reflection wavelengthVisible light, whereinFor being averaged for cholesteric liquid crystal Refractive index, p₀For the initial screw pitch of cholesteric liquid crystal, this state can keep stablizing constant for a long time, that is, realize pressure book Write reflection display function；

3) electric field is applied to liquid crystal film, the burnt cone that all liquid crystal molecules form random arrangement under the action of electric field is knitted Structure, and the information that the cholesteric liquid crystal for erasing planar orientation before this is saved realize full frame large area electrically erasable function；

4) to erasure information region is needed in liquid crystal film, i.e. the cholesteric liquid crystal in planar texture carries out exciting light irradiation, It is changed in the screw pitch of cholesteric liquid crystal simultaneously as the disturbance of liquid crystal molecule and the effect of polymer network, cholesteric phase Liquid crystal molecule is changed into conical texture, erases the information that the cholesteric liquid crystal of planar orientation before this is saved, realizes facet The accurate light in product region wipes function；

5) after closing electric field or exciting light, cholesteric liquid crystal molecule still keeps burnt cone to knit under the action of polymer network The non-reflective state of structure.

7. the reflective film according to claim 1 with light erasing function, which is characterized in that swashing in light erase process Luminescence irradiation condition are as follows: any wave band within the scope of a length of 300-460nm of excitation light wave, exciting light irradiation time are 1 second -1 small When, excitating light strength is 1.0 μ W/cm²–300.0W/cm²。

8. the reflective film according to claim 7 with light erasing function, which is characterized in that when in photoresponse cholesteric phase When adding up-conversion luminescence nanomaterial in crystal compound system, excitation wavelength range is widened to 300-1500nm.

9. the preparation method of the reflective film with light erasing function described in claim any one of 1-8, the preparation method packet Include following steps:

1) by mass fraction be 60.0wt%-95.0wt% main body small molecule liquid crystal material, mass fraction 0.1wt%- The chiral spiral shell vinyl compound of 15.0wt%, chipal compounds, the 0.0wt%- that mass fraction is 0.2wt%-30.0wt% The liquid crystal liquid crystal property polymerisable monomer of 20.0wt%, the non-liquid crystal property polymerisable monomer of 0.0wt%-20.0wt% and 0.1wt%- The photoinitiator mixture of 5.0wt% is uniform and obtains the mixed crystal compound system with very wide cholesteric phase temperature range；

2) photoresponse cholesteric liquid crystal compound system is pressed into liquid crystal film with plastics ito thin film, by separation pad or glass Microballon controls the thickness of liquid crystal device；

3) electric field is applied to liquid crystal film, so that liquid crystal molecule is in the conical texture of non-reflective state, and in its cholesteric phase Light irradiation polymerization is carried out in temperature range；Electric field is closed after light irradiation polymerization, will form inside the liquid crystal film after polymerization Polymer network.