CN107863181A - A kind of ITO conducting films - Google Patents

Abstract

The invention discloses a kind of ITO conducting films, the conductive film structure is arranged in order from top to bottom sets matcoveredn, resin matrix, silver nanoparticle film layer, the first ITO conductive film layers, the 2nd ITO conductive film layers, tack coat and substrate layer；The first ITO conductive film layers and the 2nd ITO conductive film layers are transparent conductive film layer, and the refractive index of two conductive film layers is different, the thickness of the first ITO conductive film layers is 20 30nm, the thickness of 2nd ITO conductive film layers is 10 20nm, the thickness of the resin matrix is 110 140mm, the thickness of the silver nanoparticle film layer is 45 55nm, and the thickness of the tack coat is 20 50nm.The present invention provides a kind of ITO conducting films, and it is strong with resin matrix adhesion, transmitance is high, resistivity is low, chemical stability is good.

Description

A kind of ITO conducting films

Technical field

The present invention relates to optical technical field, and in particular to a kind of ITO conducting films.

Background technology

In recent years, advancing by leaps and bounds with semiconductor fabrication, such as photocell, flat-panel screens, LED illumination, touch The new device such as screen is touched to develop rapidly and largely apply in our daily life.These new devices will use transparent lead Electrolemma is as smooth surface either light-emitting area electrode.If the transmitance of the nesa coating in these devices, light can be improved Battery can increase the absorption to light so as to change out more electricity, luminescent device can increase in the case where not increasing energy consumption Brightness, touch-screen can improve brightness and definition；Equally, if the resistivity of nesa coating can be reduced, light can be reduced The transmission loss of battery and luminescent device, improve energy utilization rate.Nowadays, photocell and the annual yield of all kinds of luminescent devices with Hundred million calculate, and in today that energy resources are increasingly in short supply, lifting nesa coating transmitance, reduce its sheet resistance, can save a large amount of energy Source, its economic value are self-evident with the value of environmental protection.In the nesa coating of routine, ITO（Tin indium oxide mixture） Film is the most frequently used, and one kind that performance is best.ITO is a kind of mixture of tin oxide and indium sesquioxide, not only electric conductivity With the transparency better than other such as：The materials such as AZO, alundum (Al2O3), and with the height not available for other nesa coatings Hardness and high chemical stability, so, at present in large-scale production, select materials of the ITO as nesa coating mostly. In film layer design, more preferable transmitance is obtained, air, film, the refractive index of substrate must carry out good matching, to individual layer For single refractive index plated film, if plated film refractive index square is multiplied by substrate refractive index equal to air refraction, then theoretical The reflectivity of upper plated film will minimize.

Existing ito film, ITO layer and resin matrix adhesion are poor, and resistivity is high, transmitance is poor and poor chemical stability, Production requirement can not be met.In addition, in the case of the monofilm growth technique of single refractive index, relatively low reflection is obtained Rate, it is necessary to using the high oxidation ITO compared with low-refraction, so the sheet resistance of ito film can be caused to greatly increase, so as to cause device Increase the waste of electric energy during work.

The content of the invention

Based on this, in view of the above-mentioned problems, be necessary to propose a kind of ITO conducting films, it is strong with resin matrix adhesion, passes through Rate is high, resistivity is low, chemical stability is good.

The technical scheme is that：

A kind of ITO conducting films, the conductive film structure is arranged in order from top to bottom sets matcoveredn, resin matrix, silver nanofilm Layer, the first ITO conductive film layers, the 2nd ITO conductive film layers, tack coat and substrate layer；The first ITO conductive film layers and second ITO conductive film layers are transparent conductive film layer, and the refractive index of two conductive film layers is different, the first ITO conductive film layers Thickness is 20-30nm, and the thickness of the 2nd ITO conductive film layers is 10-20nm, and the thickness of the resin matrix is 110-140mm, institute The thickness for stating silver nanoparticle film layer is 45-55nm, and the thickness of the tack coat is 20-50nm.

In the technical program, using protective layer, resin matrix, silver nanoparticle film layer, the first ITO conductive film layers, the 2nd ITO The mode that conductive film layer, tack coat and substrate layer are arranged in order from top to bottom, protect ITO conducting films in process of production not by Scratch, while good matching is carried out to the refractive index of air and base material by choosing appropriate ito film layer combination, overcome Conventional monolayers ito film refractive index is higher than caused by base material refractive index the problem of reflectivity increase, not only reaches using ito film Do not increase reflectivity, the effect for making the visible light wave range average reflectance after film forming be less than 0.5% on the contrary, due to the second ito film layer The suboxides ITO of high index of refraction can be used so that the sheet resistance of ito thin film prepared by this technique, per side, is far below less than 2 ohm The sheet resistance of conventional monolayers unirefringence rate ito film, so as to reduce resistivity, reduces the consumption of electric energy.Also, ITO sinks every time Crystallization process can be all undergone after product, has been effectively promoted the perfect crystallization of ITO layer.To sum up, the ITO described in the technical program is conductive Film is strong with resin matrix adhesion, transmitance is high, resistivity is low, chemical stability is good.

In a preferred embodiment, the resin matrix is that thickness ratio is 2-4:1 polyethylene terephthalate tree Aliphatic radical body and the pressing of polyimide resin matrix form, and the silver nanoparticle film layer is located at below polyimide resin matrix.Mesh Be high osmosis and electric conductivity using Nano Silver, substantially increase adhesion between silver nanoparticle film layer and resin matrix and The electric conductivity of the present invention, while the ratio of pet resin matrix and polyimide resin matrix is resin Obvious action the most is played in the optimal proportion of matrix thickness, the enhancing of raising and adhesion to electric conductivity.

In further preferably embodiment, the refractive indexes of the first ITO conductive film layers is 2.0-2.2, described second The refractive index of ITO conductive film layers is 1.4-1.5.Purpose is to match to cause greatly with the brand new technical compensated using double reflective index Ground eliminates the problem of ITO nesa coating product etching line is obvious.

In further preferably embodiment, the substrate layer is PET.Purpose is that it has excellent physical property, changed Performance and dimensional stability, the transparency and recuperability are learned, there is Electrostatic Absorption function, the conducting film is had more stability, Play a part of protection.

In still more preferably embodiment, the protective layer is metallic copper Nitinol film layer.Purpose is to film layer Play a protective role.

In still more preferably embodiment, the thickness of the first ITO conductive film layers is 24nm, and the 2nd ITO is conductive The thickness of film layer is 12nm, and the thickness of the resin matrix is 120mm, and the thickness of the silver nanoparticle film layer is 50nm, described viscous The thickness for tying layer is 40nm.Purpose be still more preferably the first ITO conductive film layers, the 2nd ITO conductive film layers, resin matrix, The thickness of silver nanoparticle film layer and tack coat, make can realizing and resin matrix adhesion is strong, transmitance is high, resistance for the conducting film Rate is low and the good function of chemical stability, reduces cost again.

The beneficial effects of the invention are as follows：

1st, the conducting film and resin matrix adhesion are strong, transmitance is high, resistivity is low, chemical stability is good.

2nd, using the high osmosis and electric conductivity of Nano Silver, the knot between silver nanoparticle film layer and resin matrix is substantially increased With joint efforts with the electric conductivity of the present invention, while the ratio of pet resin matrix and polyimide resin matrix For the optimal proportion of resin matrix thickness, obvious action the most is played in the enhancing of raising and adhesion to electric conductivity.

3rd, matched using double reflective index and cause greatly to eliminate ITO nesa coating product etching line with the technology compensated The problem of obvious.

4th, using PET base material layer, it has excellent physical property, chemical property and dimensional stability, the transparency and can Recyclability, there is Electrostatic Absorption function, the conducting film is had more stability, play a part of protection.

Brief description of the drawings

Fig. 1 is the structural representation of ITO conducting films described in the embodiment of the present invention.

Description of reference numerals：

10- substrate layers；20- tack coats；30-ITO conducting films；The ITO conductive film layers of 301- the 2nd；The ITO conductive film layers of 302- the first； 40- silver nanoparticle film layers；50- resin matrixes；501- pet resin matrixes；502- polyimide resin bases Body；60- protective layers.

Embodiment

Embodiments of the invention are described in detail below in conjunction with the accompanying drawings.

Embodiment 1：

As shown in figure 1, a kind of ITO conducting films, the conductive film structure is arranged in order from top to bottom sets matcoveredn 60, resin base Body 50, silver nanoparticle film layer 40, the first ITO conductive film layers 301, the 2nd ITO conductive film layers 302, tack coat 20 and substrate layer 10；Institute It is transparent conductive film layer to state the first ITO conductive film layers 301 and the 2nd ITO conductive film layers 302, and the refraction of two conductive film layers Rate is different, and the thickness of the first ITO conductive film layers 301 is 20-30nm, and the thickness of the 2nd ITO conductive film layers 302 is 10- 20nm, the thickness of the resin matrix 50 are 110-140mm, and the thickness of the silver nanoparticle film layer 40 is 45-55nm, the bonding The thickness of layer 20 is 20-50nm.

Embodiment 2：

As shown in figure 1, a kind of ITO conducting films, the conductive film structure is arranged in order from top to bottom sets matcoveredn 60, resin base Body 50, silver nanoparticle film layer 40, the first ITO conductive film layers 301, the 2nd ITO conductive film layers 302, tack coat 20 and substrate layer 10；Institute It is transparent conductive film layer to state the first ITO conductive film layers 301 and the 2nd ITO conductive film layers 302, and the refraction of two conductive film layers Rate is different, and the thickness of the first ITO conductive film layers 301 is 20-30nm, and the thickness of the 2nd ITO conductive film layers 302 is 10- 20nm, the thickness of the resin matrix 50 are 110-140mm, and the thickness of the silver nanoparticle film layer 40 is 45-55nm, the bonding The thickness of layer 20 is 20-50nm.

As shown in figure 1, it is 2-4 that the resin matrix 50, which is thickness ratio,:1 pet resin matrix 501 and polyimide resin matrix 502 pressing form, the silver nanoparticle film layer 40 be located under polyimide resin matrix 502 Side.

Embodiment 3：

As shown in figure 1, a kind of ITO conducting films, the conductive film structure is arranged in order from top to bottom sets matcoveredn 60, resin base Body 50, silver nanoparticle film layer 40, the first ITO conductive film layers 301, the 2nd ITO conductive film layers 302, tack coat 20 and substrate layer 10；Institute It is transparent conductive film layer to state the first ITO conductive film layers 301 and the 2nd ITO conductive film layers 302, and the refraction of two conductive film layers Rate is different, and the thickness of the first ITO conductive film layers 301 is 20-30nm, and the thickness of the 2nd ITO conductive film layers 302 is 10- 20nm, the thickness of the resin matrix 50 are 110-140mm, and the thickness of the silver nanoparticle film layer 40 is 45-55nm, the bonding The thickness of layer 20 is 20-50nm.

As shown in figure 1, it is 2-4 that the resin matrix 50, which is thickness ratio,:1 pet resin matrix 501 and polyimide resin matrix 502 pressing form, the silver nanoparticle film layer 40 be located under polyimide resin matrix 502 Side.

The refractive index of the first ITO conductive film layers 301 is 2.0-2.2, the refraction of the 2nd ITO conductive film layers 302 Rate is 1.4-1.5.

Embodiment 4：

As shown in figure 1, a kind of ITO conducting films, the conductive film structure is arranged in order from top to bottom sets matcoveredn 60, resin base Body 50, silver nanoparticle film layer 40, the first ITO conductive film layers 301, the 2nd ITO conductive film layers 302, tack coat 20 and substrate layer 10；Institute It is transparent conductive film layer to state the first ITO conductive film layers 301 and the 2nd ITO conductive film layers 302, and the refraction of two conductive film layers Rate is different, and the thickness of the first ITO conductive film layers 301 is 20-30nm, and the thickness of the 2nd ITO conductive film layers 302 is 10- 20nm, the thickness of the resin matrix 50 are 110-140mm, and the thickness of the silver nanoparticle film layer 40 is 45-55nm, the bonding The thickness of layer 20 is 20-50nm.

As shown in figure 1, it is 2-4 that the resin matrix 50, which is thickness ratio,:1 pet resin matrix 501 and polyimide resin matrix 502 pressing form, the silver nanoparticle film layer 40 be located under polyimide resin matrix 502 Side.

The refractive index of the first ITO conductive film layers 301 is 2.0-2.2, the refraction of the 2nd ITO conductive film layers 302 Rate is 1.4-1.5.

The substrate layer 10 is PET.

Embodiment 5：

As shown in figure 1, a kind of ITO conducting films, the conductive film structure is arranged in order from top to bottom sets matcoveredn 60, resin base Body 50, silver nanoparticle film layer 40, the first ITO conductive film layers 301, the 2nd ITO conductive film layers 302, tack coat 20 and substrate layer 10；Institute It is transparent conductive film layer to state the first ITO conductive film layers 301 and the 2nd ITO conductive film layers 302, and the refraction of two conductive film layers Rate is different, and the thickness of the first ITO conductive film layers 301 is 20-30nm, and the thickness of the 2nd ITO conductive film layers 302 is 10- 20nm, the thickness of the resin matrix 50 are 110-140mm, and the thickness of the silver nanoparticle film layer 40 is 45-55nm, the bonding The thickness of layer 20 is 20-50nm.

As shown in figure 1, it is 2-4 that the resin matrix 50, which is thickness ratio,:1 pet resin matrix 501 and polyimide resin matrix 502 pressing form, the silver nanoparticle film layer 40 be located under polyimide resin matrix 502 Side.

The refractive index of the first ITO conductive film layers 301 is 2.0-2.2, the refraction of the 2nd ITO conductive film layers 302 Rate is 1.4-1.5.

The substrate layer 10 is PET.

The protective layer 60 is metallic copper Nitinol film layer.

Embodiment 6：

As shown in figure 1, a kind of ITO conducting films, the conductive film structure is arranged in order from top to bottom sets matcoveredn 60, resin base Body 50, silver nanoparticle film layer 40, the first ITO conductive film layers 301, the 2nd ITO conductive film layers 302, tack coat 20 and substrate layer 10；Institute It is transparent conductive film layer to state the first ITO conductive film layers 301 and the 2nd ITO conductive film layers 302, and the refraction of two conductive film layers Rate is different, and the thickness of the first ITO conductive film layers 301 is 20-30nm, and the thickness of the 2nd ITO conductive film layers 302 is 10- 20nm, the thickness of the resin matrix 50 are 110-140mm, and the thickness of the silver nanoparticle film layer 40 is 45-55nm, the bonding The thickness of layer 20 is 20-50nm.

As shown in figure 1, it is 2-4 that the resin matrix 50, which is thickness ratio,:1 pet resin matrix 501 and polyimide resin matrix 502 pressing form, the silver nanoparticle film layer 40 be located under polyimide resin matrix 502 Side.

The refractive index of the first ITO conductive film layers 301 is 2.0-2.2, the refraction of the 2nd ITO conductive film layers 302 Rate is 1.4-1.5.

The substrate layer 10 is PET.

The protective layer 60 is metallic copper Nitinol film layer.

The thickness of the first ITO conductive film layers 301 is 24nm, and the thickness of the 2nd ITO conductive film layers 302 is 12nm, institute The thickness for stating resin matrix 50 is 120mm, and the thickness of the silver nanoparticle film layer 40 is 50nm, and the thickness of the tack coat 20 is 40nm。

Embodiment described above only expresses the embodiment of the present invention, and its description is more specific and detailed, but can not Therefore it is interpreted as the limitation to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, Without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection model of the present invention Enclose.

Claims (6)

1. a kind of ITO conducting films, it is characterised in that the conductive film structure is arranged in order from top to bottom sets matcoveredn, resin Matrix, silver nanoparticle film layer, the first ITO conductive film layers, the 2nd ITO conductive film layers, tack coat and substrate layer；First ITO is led Electrolemma layer and the 2nd ITO conductive film layers are transparent conductive film layer, and the refractive index of two conductive film layers is different, and described first The thickness of ITO conductive film layers is 20-30nm, and the thickness of the 2nd ITO conductive film layers is 10-20nm, the thickness of the resin matrix For 110-140mm, the thickness of the silver nanoparticle film layer is 45-55nm, and the thickness of the tack coat is 20-50nm.

2. ITO conducting films according to claim 1, it is characterised in that the resin matrix is that thickness ratio is 2-4:Poly- pair of 1 PET resin matrix and the pressing of polyimide resin matrix form, and the silver nanoparticle film layer is located at sub- in polyamides Below polyimide resin matrix.

3. ITO conducting films according to claim 1 or claim 2, it is characterised in that the refractive index of the first ITO conductive film layers is 2.0-2.2, the refractive index of the 2nd ITO conductive film layers is 1.4-1.5.

4. ITO conducting films according to claim 1 or claim 2, it is characterised in that the substrate layer is PET.

5. ITO conducting films according to claim 1 or claim 2, it is characterised in that the protective layer is metallic copper Nitinol film Layer.

6. ITO conducting films according to claim 1 or claim 2, it is characterised in that the thickness of the first ITO conductive film layers is 24nm, the thickness of the 2nd ITO conductive film layers are 12nm, and the thickness of the resin matrix is 120mm, the thickness of the silver nanoparticle film layer Spend for 50nm, the thickness of the tack coat is 40nm.