CN109486371A - A kind of fluorochemicals coatings and preparation method thereof, application method - Google Patents

Abstract

The invention discloses a kind of fluorochemicals coatings, the coating is made of modified silane and fluorine-based compound, in use, first modified silane is coated in substrate surface, then it is coated with fluorine-based compound, coating of the present invention can reach 50nm hereinafter, not influencing the integral thickness and optical property of substrate in the coating layer thickness that substrate surface is formed；Above-mentioned coating and substrate have good binding force, not easily to fall off in use, long service life；Above-mentioned coating abrasion performance, anti-pollution are good, have excellent smoothness, and anti-finger printing can good, easy cleaning in use.

Description

A kind of fluorochemicals coatings and preparation method thereof, application method

Technical field

The invention belongs to paint fields, and in particular to a kind of fluorochemicals coatings and preparation method thereof, application method.

Background technique

In display panel field, it will usually coat high smooth coating, on touch screen panel (TSP) to enhance the behaviour of TSP Make performance.Thickness is small, transparency is high, does not influence the thickness and normal use of TSP, is in production to the basic of TSP surface covering It is required that.Under the premise of guaranteeing coating performance, by coating layer thickness control 30nm it is ultra-thin within the scope of, to optics such as transmissivities Performance loss is smaller, can keep the optical property of TSP to the maximum extent.Based on above-mentioned requirements, developer is to coating, and applies Layer coating method on base material is made that a large amount of research.

Currently, the coating method of microthin coating generally includes wet process plating, rotary spraying or dipping (dipping) method； Dry method includes the physical vapour deposition (PVD)s such as electron beam, resistance heating, sputtering (PVD) method.When for inorganic material, dry method is mostly used to apply It covers；When coating organic material, rolling method and infusion process are mostly used, method packet organic material being coated on touch screen panel Wet process and two kinds of dry method are included, but in the case where wet type, coating layer thickness is greater than 1 micron, is conducive to save the time but deviation is serious, does Method can provide thinner, better performance, but the disadvantage is that 100 nanometers or more of thickness is difficult to coating, therefore performance is difficult to for a long time It keeps.

It is higher and higher to coating performance requirement with the development of advanced display and wearable device, in conjunction with coating property With coating method, preparing the microthin coating met the requirements becomes the hot spot of research and development.Fluorine atom electron cloud with higher is close Degree, electronegativity is stronger, and firm covalent bond can be formed in conjunction with carbon atom or silicon atom, is based on above-mentioned characteristic, contains high fluorine The monomer surface of alkyl can be low, shows good hydrophobic performance, while fluorine-based compound has excellent chemical stability, resistance to Hot and weatherability is good, also low, anti-pollution, the property of good in optical property with refractive index, therefore is widely used as new and high technology The fields such as core material, such as optic communication, photoelectron, semiconductor, automobile and computer.Such as Publication No. US4678688 United States Patent (USP), disclose a kind of fluorine silicon coating series, form coating by way of impregnating or spraying, which has good Anti-pollution, but the general coating layer thickness is 10 μm or more, and coating layer thickness is larger, can reduce the optical of the substrates such as glass Can, i.e., the coating is unable to satisfy current panel product or equipment to the performance requirement of coating on thickness and service performance.

Summary of the invention

In order to solve the deficiencies in the prior art, the present invention provides a kind of fluorochemicals coatings, and the coating is by modified silicon Alkane and fluorine-based compound composition first coat modified silane in substrate surface, are then coated with fluorine-based chemical combination in use Object, coating of the present invention can reach 50nm hereinafter, not influencing the integral thickness and light of substrate in the coating layer thickness that substrate surface is formed Learn performance；Above-mentioned coating and substrate have good binding force, not easily to fall off in use, long service life；Above-mentioned painting Layer wearability, anti-pollution are good, have excellent smoothness, and anti-finger printing can good, easy cleaning in use.

Present invention technical effect to be achieved is realized by following scheme:

The present invention provides a kind of fluorochemicals coatings, including component A and component B, it is characterised in that: the component A is modified silicon Alkane, the chemical formula of the silane are R ' (CH₂)_mSi(R’’)₃, the chemical formula of the component B is CF₃(CF₂CF₂O)_nSi(R’’)₃；

Wherein, R ' is one of amino, alkenyl, aryl, ether or glycine base, and R ' ' is the one of alkyl, alkoxy or ester group Kind, m is any integer of 0-10, and n is any integer of 10-50.

Fluorochemicals coatings are made of modified silane and fluorine-based compound two parts in the present invention, silane molecule and substrate surface With good affinity, self-condensation reaction can occur with the moisture etc. in air, form coating, can glass, metal, The substrate surfaces such as ceramics, sapphire, the film form chemosphere, show excellent adhesion property, in actual use not It is easy to fall off, the different substrate of thickness can be suitable for.Above-mentioned fluorine-based compound is carbon-fluorine compounds, and fluorine atom is with higher Cloud density, electronegativity is stronger, and firm carbon-fluorine covalent bond can be formed in conjunction with carbon atom, and the fluorine-based compound is critical Surface tension is 6-8dyn/cm or so, shows good hydrophobicity；The fluorine-based compound surface can be lower, has good Water resistant oil-resistant characteristic.Constituent using above two ingredient as fluorine compounds coating can be formed in substrate surface and be combined Power is strong, wearability is good, easy cleaning, the microthin coating for not influencing substrate integral thickness and optical property.

Further, the component B is perfluor polyester；Preferably, the molecular weight of the perfluor polyester is 2500-8000. Component B is coated on modified silane surfaces, forms the extexine of coating, since the extexine of coating is directly contacted with user, because This needs to have the advantages that smooth degree height, anti-fingerprint, oil rub resistance, easy cleaning, and perfluor polyester has good wear-resisting, weatherability Can, it can be improved the comprehensive performance of coating.Inventor has found in an experiment in the present invention, when the molecular weight of perfluor polyester is lower than When 2500, the smooth degree of perfluor polyester is reduced, and inadequate in the smooth degree of coating that substrate surface is formed, service performance reduces, to consumption The usage experience of person brings negative effect；When the molecular weight of perfluor polyester is higher than 8000, the optical property of substrate will affect, Substrate is influenced to the refractive index of light, in use, can also occur misty blurred trace in substrate surface.Therefore the present invention In the molecular weight of preferably perfluor polyester be 2500-8000, in the molecular weight ranges, perfluor polyester good combination property, Neng Goujian Appearance, performance and usage experience of consumer of coating etc. is cared for require.

Further, the silane is vinyl trimethylsilane, vinyltriethylsilane, vinyl trimethoxy silicon Alkane, vinyltriethoxysilane, vinyltriacetoxy silane, glycidol trimethyl silane, amino-ethyl trimethoxy Base silane, amino-ethyl triethoxysilane, benzyl trimethyl silane, benzyl triethyl ammonium silane, benzyl trimethoxy silane, benzyl One or more of ethyl triethoxy silicane alkane.

The present invention also provides a kind of preparation methods of above-mentioned fluorochemicals coatings, it is characterised in that: the preparation of the component A Method are as follows: equipped with agitating device reactor in be added mass fraction be 68%-75% the silane and mass fraction be Mixing speed is set as 200-400r/min by the organic solvent of 12%-18%, and 15-25min is stirred at 8-15 DEG C, then plus Enter the hydrochloric acid that mass fraction is 3%-6% and the deionized water that mass fraction is 5%-10%, continues after stirring 10-20min, matter is added The cation exchange resin that amount score is 3%-6% is stirred to react 1.5-3h then the temperature was then adjusted to 35-45 DEG C, is made described Component A.

Further, the organic solvent is one of acetone, ethyl alcohol, propyl alcohol, n-butanol, n-hexane, tetrahydrofuran Or it is several；The molar concentration of the hydrochloric acid is 9-11mol/L；The cation exchange resin is strongly acidic cation exchange tree Rouge.

The present invention also provides a kind of application methods of above-mentioned fluorochemicals coatings, it is characterised in that: first applies the component A It is overlying on substrate surface, forms base；Then the component B is coated in substrate surface；The coating method is physical vapour deposition (PVD).

Fluorochemicals coatings in use, sequentially, successively coat component A and group in substrate surface in the present invention Divide B, forms coating.Physical gas-phase deposite method, paint loss amount is small, and coating is uniform, the painting especially suitable for multi-component coating It covers, in addition, the equipment coating operation of physical gas-phase deposite method is relatively simple, the heat that generates in coating procedure, electrical effect are multiple Polygamy is lower, the coating especially suitable for microthin coating.Based on above two advantage, physical vapour deposition (PVD) side is used in the present invention Method coats fluorochemicals coatings, to obtain the microthin coating of function admirable.In conjunction with the coating method of physical vapour deposition (PVD), originally Fluorochemicals coatings are applied widely in invention, can be suitable for the bases such as thickness different glass, metal, ceramics, sapphire, the film Material surface, and there is no special restriction to the thickness of substrate.

Further, before coating component A, plasma etching process processes are carried out to the substrate using argon gas, it is described it is equal from Sub- etch processes time is 40-300s.Before coating component A, plasma etching process processes are carried out using argon gas, to substrate surface It is cleaned and is modified, improved the binding force of substrate and component A, make to coat more uniform.For different type of substrate, wait from Sub- etch processes time is different, preferably 40-300s.Further preferably, when substrate is the material that easily deformation occurs such as film, The plasma etching process processes time is preferably 40-120s；When substrate is that glass etc. is not susceptible to the material of deformation, plasma etching Handling the time is preferably 180-300s.

Further, fluorine-based lubricant is added in the component B；The dosage of the fluorine-based lubricant is the component B The 0.1%-2% of quality.Fluorine-based lubricant, which is added, can further increase the smooth effect of coating.Preferably, the fluorine-based lubrication Agent is perfluor polyester.

Further, deposition chamber temperatures are 40-150 DEG C in the processes of physical vapor deposition.Preferably, component B is coated When, deposition chamber temperatures are 80-150 DEG C, and in this temperature range, component B has preferable paintability.

Further, the groundwork thickness be 3-20nm, the coating with a thickness of 10-30nm；Preferably, the base The thickness ratio of layer and the coating is 1:(0.5-10).Groundwork thickness and overburden cover are lower than above-mentioned thickness range lower limit When, coefficient of friction is unobvious, so that the smooth degree of coating is inadequate；Groundwork thickness and overburden cover exceed the above-mentioned thickness range upper limit When, it will affect the integral thickness of substrate, reduce the paintability of coating, while the wearability of coating, anti-finger printing also can be It reduces.

The invention has the following advantages that

1. coating is divided into two kinds of components of A, B in the present invention, component A and component B is successively coated in use, it can be abundant Utilize the excellent wearability of component A and the good binding force of substrate and component B, anti-finger printing.

2. coating of the present invention can reach 50nm hereinafter, not influencing the whole thick of substrate in the coating layer thickness that substrate surface is formed Degree and optical property；Coating is not easily to fall off, long service life, and anti-pollution is good, easy cleaning.

Specific embodiment

The present invention will now be described in detail with reference to examples.

1. the preparation and use of fluorochemicals coatings.

Embodiment 1

Component A is vinyltrimethoxysilane in fluorochemicals coatings in the present embodiment, and component B is the perfluor that molecular weight is 4000 Polyester (perfluor polyester model Dow DC-2700).Substrate is high rigidity coated film plastic (high rigidity coated film plastic in the present embodiment Purchase to Japanese MSK company, ingredient PET, PC, PMMA), in the present embodiment by high rigidity coated film plastic cut to 10cm × The sample of 10cm specification, it is spare.

The use of fluorochemicals coatings:

(1) the above-mentioned vinyltrimethoxysilane of 1g is packed into the rustless steel container equipped with carbon felt that diameter is 2cm with syringe In；It is in the rustless steel container equipped with carbon felt of 2cm that the above-mentioned perfluor polyester of 1g, which is fitted into diameter with syringe,.

(2) rustless steel container equipped with vinyltrimethoxysilane and the rustless steel container equipped with perfluor polyester are put into Produced to E-Beam 2050(combined vacuum company) in, it is placed at the top of equipment in substrate sample, hatch door is closed, 3 × 10^{- 4}Inject argon gas under Torr vacuum condition, generate plasma, 60s is etched to substrate sample, then when vacuum condition reaches 3 × 10^-5When Torr, electron beam is opened, forms base in substrate sample surface coating ethylene base trimethoxy silane, groundwork thickness is 10nm；Then perfluor polyester is coated in substrate surface, forms coating, overburden cover 15nm.

Embodiment 2

Compared with Example 1, embodiment 2 the difference is that, in embodiment 2 component A be glycidol trimethyl silane, apply Expect that application method is same as Example 1.

Embodiment 3

Compared with Example 1, embodiment 3 the difference is that, in embodiment 3 component A be amino-ethyl triethoxysilane, Coating application method is same as Example 1.

Comparative example 1

Compared with Example 1, fluorochemicals coatings are perfluor polyester (perfluor polyester model that molecular weight is 4000 in comparative example 1 Dow DC-2700).Coating application method compared with Example 1 the difference is that after argon plasma etching process 60s, Directly coat perfluor polyester, coating thickness 15nm.

Embodiment 4

Using the fluorochemicals coatings and coating method in embodiment 1, the different coating of groundwork thickness, overburden cover is prepared.Base Layer is with a thickness of one of 1nm, 3nm, 10nm, 20nm, 25nm；Overburden cover is one in 5nm, 15nm, 30nm, 50nm Kind.

2. the performance test of coating.

(1) wearability test.

Test method: using erasing rubber test machine (purchase to CORETECH CORP company), by embodiment 1-4, comparative example Substrate in 1 coated with fluorochemicals coatings is fixed in fixed plate, and the cylindrical erasing rubber that installation diameter is 5mm gives substrate thing The weight load of false 1kg makes its round-trip length 40mm, shuttle speed 40r/min round-trip 3000 times, measure round-trip 1500 Secondary and substrate surface at 3000 times water droplet contact angle, contact angle size take the average values of 5 measurements.Contact angle (unit: degree) Test result is as follows shown in table:

As seen from the above table, after 1500 times and 3000 times round-trip, the contact angle of embodiment 1-3 changes compared with initial contact angle Range is smaller；The contact angle of comparative example 1 is substantially reduced compared with initial contact angle.Illustrate the wearability of embodiment 1-3 floating coat It is substantially better than comparative example 1.

Contact angle (contact angle after initial contact angle/round-trip) in embodiment 4 after round-trip 3000 times is as shown in the table:

As seen from the above table, when base or coating are too thin or too thick, after 3000 times round-trip, the attenuation amplitude of contact angle compared with Greatly；When groundwork thickness is 3-20nm, overburden cover is 10-30nm, after 3000 times are round-trip, the attenuation amplitude of contact angle It is smaller, it is able to maintain good wearability.

(2) anti-finger printing is tested.

Test method: 10 bit test personnel are coated with the substrate surface of fluorochemicals coatings in embodiment 1-4, comparative example 1 Fingerprint trace is left, is then wiped 10 times with cleaning paper, visual valuation anti-finger printing energy.Standard is A: visually without fingerprint residues, B: visually have partial fingerprints residual, C: wiping trace residual is more, and test result is as follows shown in table:

As seen from the above table, in embodiment 1-4, visually without fingerprint residues, comparative example 1 visually has partial fingerprints residual, illustrates to implement The anti-finger printing of example 1-4 floating coat can be substantially better than comparative example 1.

(3) friction coefficient measurement.

Using the FPT-F1 equipment of PARAM company, to the substrate for being coated with fluorochemicals coatings in embodiment 1-4, comparative example 1 Carry out friction coefficient measurement.Friction coefficient measurement result is as shown in the table:

As seen from the above table, the coefficient of friction of embodiment 1-3 is significantly less than comparative example 1, illustrates that the smoothness of comparative example 1-3 is obviously excellent In comparative example 1.

Coefficient of friction in embodiment 4 is as shown in the table:

As seen from the above table, when base or coating are too thin or too thick, coefficient of friction is larger；When groundwork thickness be 3-20nm, When overburden cover is 10-30nm, coefficient of friction is smaller, has good smoothness.

(4) sense of touch is tested.

Test method: 10 bit test personnel are coated with fluorochemicals coatings in finger touch embodiment 1-4, comparative example 1 Substrate surface carries out sensory evaluation to substrate sense of touch, obtains 1-10 points of evaluation score, and 1 point of expression sense of touch is worst, 10 points of expressions Sense of touch is best.Test result is as follows for sense of touch shown in table:

As seen from the above table, the sense of touch test sensory evaluation of embodiment 1-3 is higher than comparative example 1, and it is preferable to illustrate that embodiment 1-3 has Sense of touch has preferable usage experience.

Test result is as follows for the sense of touch of embodiment 4 shown in table:

As seen from the above table, when base or coating are too thin or too thick, it is lower that sense of touch tests sensory evaluation score；Work as groundwork thickness When for 3-20nm, overburden cover being 10-30nm, it is higher that sense of touch tests sensory evaluation score, has preferable usage experience.

Finally, it should be noted that above embodiments be only to illustrate the technical solution of the embodiment of the present invention rather than to its into Row limitation, although the embodiment of the present invention is described in detail referring to preferred embodiment, those skilled in the art It should be understood that the technical solution of the embodiment of the present invention can be still modified or replaced equivalently, and these are modified or wait The range of modified technical solution disengaging technical solution of the embodiment of the present invention cannot also be made with replacement.

Claims (10)

1. a kind of fluorochemicals coatings, including component A and component B, it is characterised in that: the component A is modified silane, the silane Chemical formula be R ' (CH₂)_mSi(R’’)₃, the chemical formula of the component B is CF₃(CF₂CF₂O)_nSi(R’’)₃；

Wherein, R ' is one of amino, alkenyl, aryl, ether or glycine base, and R ' ' is the one of alkyl, alkoxy or ester group Kind, m is any integer of 0-10, and n is any integer of 10-50.

2. fluorochemicals coatings as described in claim 1, it is characterised in that: the component B is perfluor polyester；The perfluor polyester Molecular weight is 2500-8000.

3. fluorochemicals coatings as described in claim 1, it is characterised in that: the silane is vinyl trimethylsilane, vinyl Triethylsilane, vinyltrimethoxysilane, vinyltriethoxysilane, vinyltriacetoxy silane, shrink are sweet Oily trimethyl silane, amino-ethyl trimethoxy silane, amino-ethyl triethoxysilane, benzyl trimethyl silane, benzyl three One or more of ethylsilane, benzyl trimethoxy silane, benzyl triethoxysilane.

4. a kind of preparation method of the fluorochemicals coatings as described in claim 1-3 is any, it is characterised in that: the system of the component A Preparation Method are as follows: equipped with agitating device reactor in be added mass fraction be 68%-75% the silane and mass fraction be Mixing speed is set as 200-400r/min by the organic solvent of 12%-18%, and 15-25min is stirred at 8-15 DEG C, then plus Enter the hydrochloric acid that mass fraction is 3%-6% and the deionized water that mass fraction is 5%-10%, continues after stirring 10-20min, matter is added The cation exchange resin that amount score is 3%-6% is stirred to react 1.5-3h then the temperature was then adjusted to 35-45 DEG C, is made described Component A.

5. the preparation method of fluorochemicals coatings as claimed in claim 4, it is characterised in that: the organic solvent be acetone, ethyl alcohol, One or more of propyl alcohol, n-butanol, n-hexane, tetrahydrofuran；The molar concentration of the hydrochloric acid is 9-11mol/L；It is described Cation exchange resin is storng-acid cation exchange resin.

6. a kind of application method of the fluorochemicals coatings as described in claim 1-3 is any, it is characterised in that: first by the component A Coated on substrate surface, base is formed；Then the component B is coated in substrate surface；The coating method is heavy for physical vapor Product.

7. the application method of fluorochemicals coatings as claimed in claim 6, it is characterised in that: before coating the component A, utilize argon Gas carries out plasma etching process processes to the substrate, and the plasma etching process processes time is 40-300s.

8. the application method of fluorochemicals coatings as claimed in claim 6, it is characterised in that: fluorine-based profit is added in the component B Lubrication prescription；The dosage of the fluorine-based lubricant is the 0.1%-2% of the component B mass.

9. the application method of fluorochemicals coatings as claimed in claim 6, it is characterised in that: sink in the processes of physical vapor deposition Product room temperature is 40-150 DEG C.

10. the application method of fluorochemicals coatings as claimed in claim 6, it is characterised in that: the groundwork thickness is 3-20nm, institute State coating with a thickness of 10-30nm；The thickness ratio of the base and the coating is 1:(0.5-10).