CN105449117B - Ionization device, OLED modules and preparation method and electronic equipment - Google Patents

Abstract

The invention discloses a kind of ionization device, OLED modules and preparation method and electronic equipment, wherein ionization device includes positive electrode and negative electrode；Positive electrode is applied to the output end of electrical connection peripheral driver system；Negative electrode is applied to the input of electrical connection peripheral driver system；Also include the active layer of core；The active layer of core is formed between positive electrode and negative electrode；And the material of the active layer of core is conductive materials, and added with ionizing water catalyst.Thus, the active layer of core absorbs the aqueous vapor in external environment and aqueous vapor is ionized.Influence of the aqueous vapor to AMOLED modules and electronic equipment in external environment can not effectively be solved by finally efficiently solving existing water oxygen barrier mode, so as to cause the problem of reliability of AMOLED modules and electronic equipment is relatively low.

Description

Ionization device, OLED modules and preparation method and electronic equipment

Technical field

The present invention relates to electronics field, more particularly to a kind of ionization device, OLED modules and preparation method and electricity Sub- equipment.

Background technology

With the high speed development of electronic industry, social electronic equipment popularity rate also more and more higher now, such as：PC, Mobile phone, server, GPS (Global Positioning System, global positioning system) guider etc., have become people Necessary article in daily life.Wherein, as a kind of novel package structure AMOLED (Active-matrix organic Light-emitting diode, active matrix organic light-emitting diode), because its have high chroma, high-contrast, wide viewing angle, The features such as high brightness, self-luminous, fast response time, achievable Flexible Displays, mobile phone and media have been widely used in it On the electronic equipments such as player.

Because the requirement that AMOLED encapsulating structures are obstructed to water oxygen is very high, therefore industry is generally using the side of sealing, shielding Formula is encapsulated using optimization encapsulation, multilayer film, increases the mode such as dry to realize that water oxygen is obstructed, to ensure the normal of electronic equipment Use.But, above-mentioned several ways can not effectively solve in external environment aqueous vapor to AMOLED modules and the shadow of electronic equipment Ring, so that the reliability of AMOLED modules and electronic equipment is relatively low.

The content of the invention

Based on this, it is necessary to can not effectively solve in external environment aqueous vapor to AMOLED for traditional water oxygen barrier mode The influence of module and electronic equipment, so as to cause the problem of reliability of AMOLED modules and electronic equipment is relatively low, there is provided one kind Ionization device, OLED modules and preparation method and electronic equipment.

To realize a kind of ionization device that the object of the invention is provided, including positive electrode and negative electrode；

The positive electrode is applied to the output end of electrical connection peripheral driver system；

The negative electrode is applied to electrically connect the input of the peripheral driver system；

Also include the active layer of core；

The active layer of core is formed between the positive electrode and the negative electrode；And

The material of the active layer of core is conductive materials, and added with ionizing water catalyst.

In one of the embodiments, the structure of the active layer of the core is hydrophilic-structure.

In one of the embodiments, the active layer of the core includes cation transmission insulator layer, anion transmission absolutely Edge nitride layer and core stratum reticulare；

The core stratum reticulare is formed between the cation transmission insulator layer and anion transmission insulator layer； And

The cation transmission insulator layer is formed between the negative electrode and the core stratum reticulare；

The anion transmission insulator layer is formed between the core stratum reticulare and the positive electrode.

In one of the embodiments, the material of the core stratum reticulare is hydrophilic material.

Accordingly, present invention also offers a kind of OLED modules, including：

Substrate；

OLED, the OLED is formed on the substrate；

Encapsulated layer, the encapsulated layer is arranged at the periphery of the OLED, surrounds the OLED；

As above any described ionization device, the ionization device is sticked in the encapsulation layer surface or is arranged on the base Between plate and the encapsulated layer.

In one of the embodiments, the OLED includes TFT layer, anode, organic layer and negative electrode；

The TFT layer is formed at the substrate surface；

The anode is formed between the TFT layer and the organic layer；

The organic layer is formed between the anode and the negative electrode.

Accordingly, to realize any of the above-described kind of OLED module, present invention also offers a kind of OLED modules preparation method, bag Include following steps：

OLED is prepared on substrate；

Do not prepare and prepared at the marginal position of the OLED described in any one of Claims 1-4 in the substrate Ionization device；

Encapsulated layer is prepared on the ionization device surface and the OLED periphery.

In one of the embodiments, the ionization device prepared described in any one of Claims 1-4, including as follows Step：

Do not prepared in the substrate and positive electrode and negative electrode prepared at the marginal position of the OLED, and it is described just Filling prepares the active layer of core between electrode and the negative electrode；Or

Do not prepared in the substrate and the positive electrode is prepared at the marginal position of the OLED, in the positive electrode table Face prepares the active layer of core, and prepares the negative electrode in the active layer surface of the core；Or

Do not prepared in the substrate and the negative electrode is prepared at the marginal position of the OLED, in the negative electrode table Face prepares the active layer of core, and prepares the positive electrode in the active layer surface of the core.

In one of the embodiments, the active layer of the core is prepared, is comprised the following steps：

Anion transmission insulator layer is prepared in the positive electrode surface；

Core stratum reticulare is prepared on anion transmission insulator layer surface；

Cation transmission insulator layer is prepared between the core net layer surface and the negative electrode.

Accordingly, present invention also offers a kind of electronic equipment, including as above any described OLED modules；And

In one of the embodiments, the drive circuit is the supply unit of the electronic equipment.

The beneficial effect of above-mentioned ionization device：

It uses conductive materials active as core by forming the active layer of core between positive electrode and negative electrode The main material of layer, and ionizing water catalyst is added, the thus output when positive electrode and negative electrode respectively with peripheral driver system Behind end and input electrical connection, the active layer of core absorbs the aqueous vapor in external environment and aqueous vapor is ionized, so as to avoid The phenomenon that aqueous vapor in external environment is entered in AMOLED modules or electronic equipment, this also just improves AMOLED modules or electricity The reliability of sub- equipment.Aqueous vapor pair in external environment can not effectively be solved by finally efficiently solving existing water oxygen barrier mode The influence of AMOLED modules and electronic equipment, so as to cause the problem of reliability of AMOLED modules and electronic equipment is relatively low.

Brief description of the drawings

Fig. 1 is the cross-sectional view of a specific embodiment of the ionization device of the present invention；

Fig. 2 is the cross-sectional view of the another specific embodiment of the ionization device of the present invention；

Fig. 3 is the structural representation of a specific embodiment of the OLED modules of the present invention；

Fig. 4 is the structural representation of the another specific embodiment of the OLED modules of the present invention；

Fig. 5 is the cross-sectional view of the another specific embodiment of the OLED modules of the present invention；

Fig. 6 is the schematic diagram of a specific embodiment of the OLED module preparation methods of the present invention.

Embodiment

To make technical solution of the present invention clearer, the present invention is done further in detail below in conjunction with drawings and the specific embodiments Describe in detail bright.

Referring to Fig. 1, as a specific embodiment of the ionization device 100 of the present invention, it includes positive electrode 110 and negative electrode 120.Wherein, positive electrode 110 is applied to the output end of electrical connection peripheral driver system (not shown).Negative electrode 120 is applicable In the input of electrical connection peripheral driver system.Also, it also includes the active layer 130 of core.The active layer 130 of core is formed at just Between electrode 110 and negative electrode 120；And the material of the active layer 130 of core is conductive materials, and added with ionizing water catalyst.

It is used as core by forming the active layer 130 of core between positive electrode 110 and negative electrode 120 using conductive materials Be indecisive and changeable the material of bold and vigorous layer 130, and add ionizing water catalyst, thus when positive electrode 110 and negative electrode 120 respectively with peripheral driver After output end and the input electrical connection of system, the active layer 130 of core can effectively absorb the aqueous vapor of its exterior ambient environment, and The aqueous vapor being absorbed to is ionized into hydrogen ion (H⁺) and hydroxide ion (OH^-), while under the driving of peripheral drive system, will The cation produced and anion discharge ionization device 100 are ionized, to prevent aqueous vapor from entering AMOLED modules or electronic equipment In.It replaces the mode that existing water oxygen is obstructed by using the mode of ionization hydrone, and the significantly more efficient aqueous vapor that avoids is entered Enter the phenomenon in AMOLED modules or electronic equipment, so as to improve the reliability of AMOLED modules and electronic equipment.

It should be noted that in material of the use conductive materials as the active layer 130 of core, conductive materials can be active Metalloid, such as：The preferable material of the electric conductivity such as silver, copper, gold or aluminium.The ionizing water catalyst of its addition specifically can be using tool simultaneously There is hydrophilic material, such as：Crome metal, aluminium, zinc etc..

Further, in order that ionization device 100 of the invention can be more fully by the moisture of surrounding outer environment Son is ionized into ionic state, and as a specific embodiment of the ionization device 100 of the present invention, the structure of the active layer 130 of its core is excellent Elect hydrophilic-structure as.Referring to Fig. 1, hydrophilic-structure herein is referred specifically to by with hydrophilic material, such as：Crome metal, aluminium, zinc Etc. the hydrophilic structure of composition.It by the structure of the active layer 130 of core by being preferentially set to hydrophilic-structure so that ionization device The active layer 130 of core in 100 can sufficiently absorb the hydrone of surrounding environment, and contribute to the ionization of hydrone, finally So that hydrone ionization is more abundant.This also just further improves the ionization performance of ionization device 100, so as to further carry The high reliability of AMOLED modules or electronic equipment.

Referring to Fig. 2, as the another specific embodiment of the ionization device 100 of the present invention, the active layer 130 of its core may include Cation transmission insulator layer 131, anion transmission insulator layer 132 and core stratum reticulare 133.Wherein, core stratum reticulare 133 is formed Transmitted in cation between insulator layer 131 and anion transmission insulator layer 132.Also, cation transmits insulator layer 131 It is formed between negative electrode 120 and core stratum reticulare 133, anion transmission insulator layer 132 is formed at core stratum reticulare 133 and positive electricity Between pole 110.

Transmitted by the way that the active layer 130 of core is set into cation tunnel dielectric layer 131, core stratum reticulare 133 and anion The sandwich structure of the formation of insulator layer 132, positive electrode 110 and negative electrode 120 are electrically connected the output of peripheral driver system End and input.When the hydrone of the surrounding outer environment of ionization device 100 enters the core stratum reticulare 133 of the active layer 130 of core Behind net region, the cation transmission insulator layer 131 and anion transmission insulator layer 132 of corresponding position turn into conducting shape State, thus ionization device 100, which starts and ionizes hydrone, turns into the hydrogen ion and electronegative hydroxide ion of positively charged.By In the sucking action of positive and negative electrode 120, electronegative hydroxide ion and other micro anions close to the part of positive electrode 110, Insulator layer 132 is transmitted into anion, transmit insulator layer 132 by anion is transported out electricity by anions such as hydroxide ions From device 100；The hydrogen ion of positively charged and other micro cations are exhausted into cation transmission then close to the part of negative electrode 120 Edge nitride layer 131, transmits insulator layer 131 by cation and the cations such as hydrogen ion is transported out into ionization device 100；Finally realize The ionization of hydrone.It is simple in construction, it is easy to accomplish.

Simultaneously, it should be pointed out that the material of core stratum reticulare 133 is preferably hydrophilic material, so that core stratum reticulare 133 can more fully absorb the hydrone of surrounding outer environment, to guarantee the surrounding outer environment of ionization device 100 Whole or the overwhelming majority hydrone absorbs and ionizes so that further lifting ionization device 100 ionization performance, To improve the reliability of AMOLED modules and electronic equipment.

It is preferred that, hydrophilic material can for chromium, aluminium or zinc etc., or chromium, aluminium or zinc etc. hydroxide.

Further, as a specific embodiment of ionization device 100 of the invention, its positive electrode 110 and negative electrode 120 parts can be prepared from using evaporation process, and the core stratum reticulare 133 in the active layer 130 of its core also can be using evaporation work Prepared by skill, the cation transmission insulator layer 131 and anion transmission insulator layer 132 in the active layer 130 of core then may be used Prepared using coating process or sputtering technology.Technique is simple, it is easy to operate.

Accordingly, based on same inventive concept, present invention also offers a kind of OLED (Organic Light-Emitting Diode, Organic Light Emitting Diode is also known as Organic Electricity laser display) module 200, it includes as above any described ionization device 100。

With reference to Fig. 3 and Fig. 4, as a specific embodiment of the OLED modules 200 of the present invention, it includes substrate 210, formation In the OLED 220 on substrate 210, and it is arranged on the periphery of OLED 220, the encapsulated layer for surrounding OLED 230.It also includes as above any described ionization device 100.Ionization device 100 is directly sticked on the surface of encapsulated layer 230, or It is arranged between substrate 210 and encapsulated layer 230.That is ionization device 100 and substrate 210, OLED 220 and the shape of encapsulated layer 230 Into structure can be divided into and stick on two kinds of formula in formula and structure.

Wherein, referring to Fig. 3, Fig. 4, the structure for sticking on formula is specially：Ionization device 100 is directly sticked in encapsulated layer 230 Surface, and encapsulated layer 230 is coated, it is simple in construction, it is easy to accomplish.Wherein, "+" is the positive electrode 110 of ionization device 100 Extension, "-" is the extension of negative electrode 120 of ionization device 100.

Referring to Fig. 4, formula is then in its structure：Ionization device 100 is arranged between substrate 210 and encapsulated layer 230, and Edge of the ionization device 100 along substrate 210 is around setting.I.e. using ionization device 100 by between substrate 210 and encapsulated layer 230 Gap completely fill out.So as to when the hydrone of the exterior ambient environment of OLED modules 200 enters in OLED modules 200, pass through Ionization device 100 is absorbed and ionized.Similarly, "+" is the extension of positive electrode 110 of ionization device 100, "-" For the extension of negative electrode 120 of ionization device 100.

It should be pointed out that referring to Fig. 5, being used as a specific embodiment of the OLED modules 200 of the present invention, its OLED 220 include TFT (Thin Film Transistor, thin film transistor (TFT)) layer 221, anode 222, organic layer 223 and negative electrode 224. Wherein, TFT layer 221 is formed at the surface of substrate 210；Anode 222 is formed between TFT layer 221 and organic layer 223；Organic layer 223 It is formed at encapsulated layer 230 between anode 222 and negative electrode 224.Wherein, organic layer 223 specifically may include to be formed at the surface of anode 222 Cavitation layer 2230, the luminescent layer 2231 for being formed at the surface of cavitation layer 2230 and the electronic shell for being formed at the surface of luminescent layer 2231 2232.That is, as the OLED modules of the present invention, it is preferably AMOLED modules.

Accordingly, referring to Fig. 6, to realize any of the above-described kind of OLED module, present invention also offers a kind of OLED module systems Preparation Method.It specifically includes following steps：First, by performing step S100, OLED is prepared on substrate.And then perform Step S200, does not prepare in substrate and as above any described ionization device is prepared at the marginal position of OLED.Finally, perform Step S300, encapsulated layer is prepared on ionization device surface and OLED periphery.

When OLED modules are AMOLED modules, step S100, preparing OLED on substrate specifically can be by following Mode is realized：First, by step S110, TFT layer is prepared on substrate.Wherein, prepare the technique of TFT layer (can change for CVD Learn vapour deposition) technique, (Sputter) sputtering process, etching technics etc..Also, TFT layer can be for 9 layers, 10 layers or 12 layers not Deng.And then by step S120, anode is prepared on TFT layer.Prepared on TFT layer after anode, then by step S130, Organic layer is prepared on anode.Wherein, organic layer includes cavitation layer, luminescent layer and electronic shell successively.After organic layer to be done, enter And by step S140, negative electrode is prepared on organic layer.So as to be finally completed the preparation of OLED.

It should be noted that during OLED is prepared, the preparation of anode, organic layer and negative electrode can be using evaporation Technique is realized.

After the preparation of OLED to be done, before the packaging, it is necessary to carry out the preparation of ionization device 100.Specifically , the preparation method of ionization device 100 can be accomplished by the following way：

One kind is not prepared in substrate 210 and positive electrode 110 and negative electrode 120 are prepared at the marginal position of OLED, and Filling prepares the active layer 130 of core between positive electrode 110 and negative electrode 120.Its concrete structure can be found in shown in Fig. 5.

It is another to be, do not prepared in substrate 210 and positive electrode 110 is prepared at the marginal position of OLED, in positive electrode 110 Surface prepares the active layer 130 of core, and prepares negative electrode 120 on the active surface of layer 130 of core.

Another is then not prepared in substrate 210 and negative electrode 120 is prepared at the marginal position of OLED, in negative electrode 120 surfaces prepare the active layer 130 of core, and prepare positive electrode 110 on the active surface of layer 130 of core.

Wherein, preparing core active layer 130 then can be especially by：First, anion transmission is prepared on the surface of positive electrode 110 Insulator layer 132；And then prepare core stratum reticulare 133 on anion transmission insulator layer 132 surface；Finally, in core stratum reticulare 133 Cation transmission insulator layer 131 is prepared between surface and negative electrode 120 to realize.

It should be pointed out that the positive electrode 110 and negative electrode 120 in ionization device 100 can be carried out using evaporation process Prepare, core stratum reticulare 133 can also be prepared using evaporation process.Cation transmits insulator layer 131 and anion transmission insulant Layer 132 then can be prepared using coating process or sputtering technology.

Further, based on same inventive concept, present invention also offers a kind of electronic equipment, it includes any of the above-described kind OLED modules 200.Wherein, the ionization device 100 in OLED modules 200 is connected electrically in the input of the drive circuit of electronic equipment Between output end.I.e. by using the drive circuit of electronic equipment as peripheral driver system, for being provided for ionization device 100 Driving energy.In addition, drive circuit is preferably the supply unit of electronic equipment.Also, electronic equipment can for mobile phone, computer and The various mobile electronic products such as tablet personal computer.

For clearer explanation technical solution of the present invention, below so that electronic equipment is mobile phone as an example, to the tool of the present invention Body running flow is described in further details.

Wherein, the display screen of mobile phone using the OLED modules 200 of the present invention as display screen, and OLED modules 200 Inside it is provided with ionization device 100.The negative pole of the supply unit of the electrical connection mobile phone of positive electrode 110 of ionization device 100 (drives electricity The output end on road, that is, peripheral driver system output end), the negative electrode 120 of ionization device 100 electrically connects the power supply of mobile phone Device positive pole (i.e. the input of drive circuit, that is, peripheral driver system input).

When mobile phone exterior ambient environment has an aqueous vapor, and it is same in the display screen of OLED modules 200 that aqueous vapor enters mobile phone When, the active layer 130 of core in the ionization device 100 in the structure of OLED modules 200 absorbs aqueous vapor, so that the active layer of core Cation transmission insulator layer 131 in 130 is turned on anion transmission insulator layer 132, and ionization device 100 starts ionization work Make.

Now, the aqueous vapor being absorbed to is ionized into by the core stratum reticulare 133 in the active layer 130 of core in ionization device 100 Cation and anion.And after ionization terminates, that is, the aqueous vapor absorbed is all ionized to after cation and anion, ionization knot Beam, aqueous vapor is decomposed, and ionization device 100 terminates ionization work.

After ionization work stops, the cation and anion being now decomposed out are in the presence of positive and negative attraction, respectively It is adsorbed to anion transmission insulator layer 132 and cation transmission insulator layer 131.

Now, whether the supply unit of mobile phone is in ionized state, and perceiving ionization by perceiving ionization device 100 After state terminates, start ion transport, the state of OLED modules 200 is transmitted out into ion.That is, the supply unit of mobile phone is in detection Terminate to ionization device 100 after ionized state, open positive electrode 110, the electrophorevis waveform structure of negative electrode 120.Wherein, crest ripple The different electrophoresis of paddy, produces the impetus to ion, so that the negative ions less than hydrone are all gone out into mobile phone The internal structure of OLED modules 200.It realizes that water oxygen is obstructed by using ionization this active mode of hydrone, to substitute tradition The passive mode such as encapsulation, shielding so that water oxygen barriering effect is stronger, and the aqueous vapor that finally effectively prevent in external environment enters Phenomenon in electronic product and OLED modules 200, it is ensured that the reliability of electronic equipment and OLED modules 200.

Simultaneously, it is necessary to which explanation, in 100 pairs of hydrones being absorbed to of ionization device carry out ionization process, can absorb Substantial amounts of heat, and then directly can cool to electronic equipment and OLED modules 200, its not only effectively improve electronic equipment and The use environment of OLED modules 200, it is ensured that the reliability of electronic equipment and OLED modules 200, while also achieving to electronics The cooling of equipment and OLED modules 200, further increases the reliability of electronic equipment and OLED modules 200.

Embodiment described above only expresses the several embodiments of the present invention, and it describes more specific and detailed, but simultaneously Therefore the limitation to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for one of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the guarantor of the present invention Protect scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. a kind of ionization device, it is characterised in that including positive electrode and negative electrode；

The positive electrode is applied to the output end of electrical connection peripheral driver system；

The negative electrode is applied to electrically connect the input of the peripheral driver system；

Also include the active layer of core；

The active layer of core is formed between the positive electrode and the negative electrode；And

The material of the active layer of core is conductive materials, and adds the ionizing water catalyst being made up of hydrophilic material.

2. ionization device according to claim 1, it is characterised in that the structure of the active layer of core is by hydrophily material Expect the hydrophilic-structure constituted.

3. ionization device according to claim 1, it is characterised in that the active layer of core includes cation and transmits insulation Nitride layer, anion transmission insulator layer and core stratum reticulare；

The core stratum reticulare is formed between the cation transmission insulator layer and anion transmission insulator layer；And

The cation transmission insulator layer is formed between the negative electrode and the core stratum reticulare；

The anion transmission insulator layer is formed between the core stratum reticulare and the positive electrode.

4. ionization device according to claim 3, it is characterised in that the material of the core stratum reticulare is hydrophilic material.

5. a kind of OLED modules, it is characterised in that including：

Substrate；

OLED, the OLED is formed on the substrate；

Encapsulated layer, the encapsulated layer is arranged at the periphery of the OLED, surrounds the OLED；

Ionization device described in any one of Claims 1-4, the ionization device is sticked in the encapsulation layer surface or is arranged on Between the substrate and the encapsulated layer.

6. OLED modules according to claim 5, it is characterised in that the OLED includes TFT layer, anode, organic Layer and negative electrode；

The TFT layer is formed at the substrate surface；

The anode is formed between the TFT layer and the organic layer；

The organic layer is formed between the anode and the negative electrode.

7. a kind of OLED modules preparation method, it is characterised in that comprise the following steps：

OLED is prepared on substrate；

The ionization prepared at the marginal position of the OLED described in any one of claim 1 to 5 is not prepared in the substrate Device；

Encapsulated layer is prepared on the ionization device surface and the OLED periphery.

8. OLED modules preparation method according to claim 7, it is characterised in that the preparation Claims 1-4 is any Ionization device described in, comprises the following steps：

Do not prepared in the substrate and positive electrode and negative electrode are prepared at the marginal position of the OLED, and in the positive electrode Filling prepares the active layer of core between the negative electrode；Or

Do not prepared in the substrate and the positive electrode is prepared at the marginal position of the OLED, in the positive electrode surface system The active layer of standby core, and prepare the negative electrode in the active layer surface of the core；Or

Do not prepared in the substrate and the negative electrode is prepared at the marginal position of the OLED, in the negative electrode surface system The active layer of standby core, and prepare the positive electrode in the active layer surface of the core.

9. OLED modules preparation method according to claim 8, it is characterised in that prepare the active layer of the core, including Following steps：

Anion transmission insulator layer is prepared in the positive electrode surface；

Core stratum reticulare is prepared on anion transmission insulator layer surface；

Cation transmission insulator layer is prepared between the core net layer surface and the negative electrode.

10. a kind of electronic equipment, it is characterised in that including the OLED modules described in claim 5 or 6；And the OLED modules In ionization device be connected electrically between the input of the drive circuit of the electronic equipment and output end.