CN1655316A - Field emission display with a reflecting layer - Google Patents

Abstract

This invention relates to field emission displayer with reflection layer, which comprises the following: positive electrode structure; negative electrode structure with carbon nanometer tube layer; supportive device between the negative and positive electrodes structures with reflection layer to reflect the fluorescence layer light. The field emission displayer of the reflection layer is improved of the supportive device with one reflection layer.

Description

The Field Emission Display in tool reflector

Technical field

The present invention relates to a kind of structure of relevant Field Emission Display, especially a kind of with bracing or strutting arrangement as the supporting construction of negative electrode and anode and the structure of the Field Emission Display in a reflector is set on this bracing or strutting arrangement.

Background technology

Flat-panel screens (FPD) kind comprises Field Emission Display (FED), LCD (TFT-LCD), plasma display (PDP), organic light emitting diode display (OLED), projection type liquid crystal display or the like, gently, thin is the common feature of described flat-panel screens, according to the different speciality of this flat-panel screens respectively, some can be applicable to small size face version such as mobile phone; During some then can be applicable to, big molded dimension such as computer screen, video screen; Or be applied to ultra-large type size such as outdoor digital billboard.The development of various flat-panel screens technology all is to wish towards having high image quality, big picture concurrently and improving characteristic such as useful life.

Field Emission Display wherein is one of emerging in recent years flat-panel screens, its reason is that it has self luminous effect, except that better brightness performance can be arranged than LCD, adds broader visual angle, energy resource consumption is low, characteristics such as reaction speed is fast, and operating temperature is wider, and the gained image quality is similar to traditional cathode ray tube (CRT), and its volume is light far beyond cathode ray tube (CRT), book, add the CNT (carbon nano-tube) that to be developed in recent years, be applied in it, certainly will promote its development.

A kind of known three-electrode field transmitting display device is with reference to shown in Figure 1, its structure comprises anode structure 10 and cathode structure 20 at least among a cellular construction, be provided with bracing or strutting arrangement (or spacer) 15 between anode and the negative electrode, be provided as the interval of vacuum area between unit anode and unit cathodes, and as the support between anode structure 10 and the cathode structure 20, consult shown in Figure 1, one anode structure 10 comprises an anode glass substrate 11 at least, one anode conductive layer, 12, one fluorescent powder layer (phosphors layer) 13; And a cathode structure 20 comprises a cathode glass substrate 21, one cathode conductive layers 22, one electron emission source layers 23, one dielectric layer 24, one grid layers 25 at least; Wherein respectively the interval of this unit inner anode structure 10 and cathode structure 20 is disposed by bracing or strutting arrangement 15, its function is the maintaining of vacuum area that keeps between cathode structure and the anode structure, and, make electron emission source layer 23 on the cathode structure 20 produce fluorescent powder layer 13 on electronics and the directive anode structure 10 and excite and make the fluorescent powder luminous by the high pressure that anode conductive layer 12 provides.In view of the above, in Field Emission Display, move, display is evacuated to 10 by vacuum equipment in order to make electronics ^-7Holder (torr) makes electronics obtain a good free radius vector (mean free path), should avoid the pollution in electron emission source and phosphor powder district simultaneously and poisons.In addition, for making electronics have enough energy to remove to impact phosphor powder, so between two plates, appropriate gap need be arranged, make electronics have enough acceleration energies to impact phosphor powder, reach and make phosphor powder can fully produce luminescent effect, so,, allow a display obtain a good luminous efficient so that electronics produces enough acceleration to keeping a good gap.

Yet, described Field Emission Display excites phosphor powder with a kind of low voltage drive, the voltage that anode uses is many less than below the 5KV, much smaller than the anode high voltage of known cathode-ray tube CRT at least greater than more than the 20KV, therefore the cathode electronics emission source electron beam kinetic energy of Field Emission Display still is limited, the brightness that can excite the fluorescent powder to be produced is also limited relatively, to this, known technology also has many countermeasures can reference, for example, improve the CNT (carbon nano-tube) electron emission source layer of current density, the fluorescent powder layer of high efficiency low pressure phosphor powder, or the improvement of drive circuit or the like, wherein a kind ofly one reflector 14 is set to improve the luminous efficiency of phosphor powder at anode with the notion of continuing to use cathode ray tube.

So-called reflector mode, the known cathode-ray tube cathode of reference is there to be a suitable distance between electron gun and anode fluorescent screen, with a kind of known diagonal-size is that 17 cun cathode ray tube is that example is at least more than the 200mm, therefore with known cathode ray tube anode voltage can be more than the 20KV high pressure, cathode electron beam is quickened, electron beam has quite high kinetic energy and can be excited in the fluorescent powder layer, and for improving the luminous efficiency of phosphor powder, and the uniformity of luminance of raising fluorescent screen, consult the fluorescent powder layer 82 surperficial many evaporations one metal film reflector 84 of known technology shown in Figure 7 on face glass 80, improved luminous efficiency with reflection by deflection or the backlight that the fluorescent powder excites, wherein each color elements structure of this known technology has black matrix array district 81, but and the emission of the metal light shield 83 standard electron beams 85 among the figure.But in view of the above, for Field Emission Display, as mentioned above, the high pressure that anode uses is many less than below the 5KV, and the gap of the anode and cathode of Field Emission Display is the unit of several mm or littler only then, therefore the electron emission source layer produces the electronic kinetic energy of the kinetic energy of electron beam much smaller than the high pressure mode of cathode ray tube, therefore in the anode fluorescent powder layer of Field Emission Display one reflective metals rete is set also as if anode fluorescent screen according to cathode ray tube, electron beam will be difficult to penetrate in the fluorescent powder and excite, and electronics reduces the luminous efficiency of fluorescent powder layer on the contrary easily by this reflective metal rete absorption on phosphor powder top layer.

For this reason, a kind of known technology, with reference to Taiwan patent announcement numbers No. 289126, consult structure shown in Figure 2, this structure has anode glass panel 91 with carrying phosphor powder 93, anode conductive layer 95 and black matrix array district 94, wherein with a kind of can be as the moon, the bracing or strutting arrangement 96 of the support function effect between anode is made luminous light dorsad or the deflection light of fluorescent powder that a reflector 92 is excited with angle of inclination reflection in a side of closing on anode fluorescent powder layer, and this device reflector does not directly attach the fluorescent bisque, can not absorb electron beam, can improve brightness, but according to technology that this invention provided, make with exposure imaging, and cooperate complicated method for manufacturing thin film, preparation method's complexity, equipment cost is too high, in addition, make a large scale as the Field Emission Display panel more than 20 cun, or desire is made a thickness and is reached the above bracing or strutting arrangement of 500 μ m as desire, more difficult, therefore need seek more easy execution mode.

In recent years, a kind of panel-shaped bracing or strutting arrangement of novel insulation material often is imported into the use at interval of liquid crystal flat panel display panel internal layer in the past, consult structure shown in Figure 5, this material coefficient of expansion is close with glass, plate thickness can be 500 μ m to 1500 μ m, and can be etched into a plurality of holes 42, pore diameter can satisfy the demand of the anode and cathode cell matrix assortment of present Field Emission Display, therefore also can be considered the application of the bracing or strutting arrangement between anode and cathode in the Field Emission Display.Because Field Emission Display is in the unusual vacuum state of low pressure, for preventing two large stretch of panels collapses in the display, known bracing or strutting arrangement is many to be supported with glass marble or cross glass, supports again or with the supporter of strip.Described bracing or strutting arrangement needs with a sticking agent to attach to negative electrode or anode, therefore on the preparation method, need through attaching sticking agent, be attached on then on anode structure or the cathode structure, finished the set of bracing or strutting arrangement more through a sintering preparation method, cooperate the picture of Field Emission Display panel to present demand, and unlikelyly influence the effect that picture presents, therefore the scale of bracing or strutting arrangement mostly at 50 μ m between the 200 μ m, its apparent size is quite small, so this structure just has the existence of following complexity on the preparation method; One. preparation method's complexity: because known bracing or strutting arrangement apparent size is little, plants the bracing or strutting arrangement requirement by adsorption plant or transfer equipment cloth and accurately improve, the complexity of contraposition and enforcement and degree of difficulty improve.Two. bracing or strutting arrangement attaches sticking agent and easily produces pollution: because known bracing or strutting arrangement needs by being stained with slurry, just can stick together on panel, must again through heating allow be stained with starch and carry out set thereafter, allowing panel and bracing or strutting arrangement finish fixed sealing, to speckle with slurry bracing or strutting arrangement cloth and be implanted on the panel, and cause and be stained with the slurry counter plate and form pollutant sources, it two is through high temperature sintering, be stained with the solvent in starching thereby evaporating, certainly will cause secondary pollution by counter plate.So,, and can lower preparation method's cost greatly if can solve above problem easily with described insulation totem matrix hole bracing or strutting arrangement.

That is to say, known Field Emission Display is the low voltage drive below 5KV only still, limited for the phosphor powder luminous efficiency that is excited, for this reason, known technology is provided with a reflector to improve luminous efficiency, yet the preparation method is too complicated, be difficult to carry out, in addition, the bracing or strutting arrangement that known technology is provided with, on the preparation method, implement to be difficult for, and easily cause the shortcomings such as pollution of assembly.

Summary of the invention

Main purpose of the present invention is to provide the bracing or strutting arrangement in a kind of tool reflector, can improve the brightness performance of field-emissive display module.

Another purpose of the present invention is to provide the bracing or strutting arrangement in a kind of tool reflector, can replace the bracing or strutting arrangement that known technology uses, and makes this bracing or strutting arrangement settle and implement simple and easy.

Another object of the present invention is to provide the manufacture method of the bracing or strutting arrangement in a kind of tool reflector, can independent processing and fabricating, be arranged at encapsulation in the lump in the Field Emission Display assembly again.

Another purpose again of the present invention is to provide the method for packing of the bracing or strutting arrangement in a kind of tool reflector, and this bracing or strutting arrangement is implemented in the field-emissive display module, does not influence the conductance path, and the operation of assembly Vacuum Package is implemented.

In order to achieve the above object, the invention provides the emission display in a kind of tool reflector, it comprises: anode structure, tool fluorescent powder layer; Cathode structure, the tool carbon nanotube layer; And bracing or strutting arrangement, between this cathode structure and this anode structure, the tool reflector is towards this fluorescent powder layer, to reflect the light that this fluorescent powder layer is sent.

The bracing or strutting arrangement of the tool reflection function that the present invention is provided with, except that this bracing or strutting arrangement of performance is applied to the support function on the Field Emission Display, and can improve the luminous efficiency of phosphor powder, can improve the luminous efficiency of field-emissive display module, in addition, the bracing or strutting arrangement that the present invention also provides a simple and easy enforcement to settle, this bracing or strutting arrangement also can independently be implemented to make, make the preparation method simple and easy, the product fine rate improves.

In order further to understand feature of the present invention and technology contents, see also following about detailed description of the present invention and accompanying drawing, yet appended accompanying drawing only provide with reference to and the explanation usefulness, be not to be used for the present invention is limited.

Description of drawings

Fig. 1 is known three-electrode field transmitting display device structural representation;

Fig. 2 is the bracing or strutting arrangement schematic diagram of known technology;

Fig. 3 is the invention process structural representation, has wherein analysed and observe the structure of the part hole of bracing or strutting arrangement;

Fig. 4 is the bracing or strutting arrangement schematic diagram that contains the reflector;

Fig. 5 is the panel-shaped bracing or strutting arrangement schematic diagram of insulation material;

Fig. 6 is an anode structure partial schematic diagram of the present invention;

Fig. 7 is the anode structure partial schematic diagram of known technology;

Fig. 8 is a bracing or strutting arrangement pore structure schematic diagram of the present invention; And

Fig. 9 is another bracing or strutting arrangement pore structure schematic diagram of the present invention.

Wherein, description of reference numerals is as follows:

The 10-anode structure; 11-anode glass substrate; The 12-anode conductive layer; 13-fluorescent powder layer;

The 14-reflector; The 15-bracing or strutting arrangement; The 20-cathode structure; The 21-cathode glass substrate;

The 22-cathode conductive layer; 23-electron emission source layer; The 24-dielectric layer; The 25-grid layer;

31-anode glass panel; The 32-anode conductive layer; The 33-dielectric layer; The 34-cathode conductive layer;

The 35-cathode glass faceplate; The 36-electron emission source; The 37-metal gate layers; The 38-bracing or strutting arrangement;

The 39-barrier rib; 41-fluorescent powder layer; The 42-hole; The 43-inactive area; The 44-reflector;

The 80-face glass; 81-black matrix array district; 82-fluorescent powder layer; 83-metal light shield;

The 84-reflector; The 85-electron beam; 91-anode glass panel; The 92-reflector;

The 93-phosphor powder; 94-black matrix array district; The 95-anode conductive layer; The 96-bracing or strutting arrangement;

101-first pore diameter; 102-second pore diameter; 103-the 3rd pore diameter;

104-the 4th pore diameter; 105-the 5th pore diameter.

Embodiment

The invention provides the bracing or strutting arrangement 38 in a kind of tool reflector, with reference to shown in Figure 5, this device is a kind of insulation material, with the negative electrode of Field Emission Display or the coefficient of expansion of anode plate be good near the person, so that this device and negative electrode panel and anode plate reduce because of adding thermal expansion process the moon in vacuum encapsulation process, the sliver that anode structure and bracing or strutting arrangement differences in expansion cause takes place, this bracing or strutting arrangement 38 is provided with a plurality of holes 42, the setting of hole is corresponding to the anode and cathode unit cell arrangement of Field Emission Display, produce the channel of electron beam to be provided as the cathode electronics emission source with excitation anode fluorescent powder layer, the setting of described hole, can implement to make by a kind of etching mode, one side of this bracing or strutting arrangement is made a reflector 44, consult shown in Figure 4, it is good that the reflector presents mirror effect, the material in reflector can be electric conducting material, this bracing or strutting arrangement 38, can make a contraposition mark in the inactive area 43 outside a plurality of pore region, to be provided as the Vacuum Package contraposition, so that it is cloudy, anode unit is corresponding to respectively these a plurality of holes 42 in this bracing or strutting arrangement 38, the one sticking agent coating area that can be provided with in 43 of the upper and lower surface inactive area of this bracing or strutting arrangement 38, so that the coating sticking agent to be provided, so that the sintering process set negative electrode and the anode plate of Vacuum Package.

The manufacture method of the bracing or strutting arrangement 38 in tool of the present invention reflector, can carry out by a kind of processing mode, select a bracing or strutting arrangement that contains a plurality of holes 38 of having made for use, make the side of a reflector 44 with evaporation or sputtering way, to make the bracing or strutting arrangement 38 in tool of the present invention reflector in bracing or strutting arrangement 38.

The execution mode at Field Emission Display of the bracing or strutting arrangement 38 in tool of the present invention reflector, this mode is different from knownly implants the known bracing or strutting arrangement of set in the cloth mode of planting, present embodiment: one, make a barrier rib (rib) 39 in a side of the electron emission source (carbon nanotube layer) 36 of cathode structure 20 or a side of anode structure 10 fluorescent powder layer 41 respectively, this barrier rib the position is set corresponding to bracing or strutting arrangement 38 respectively between these a plurality of holes, to support and to isolate anode and cathode and construct, and the setting of this barrier rib is to provide a conductance path, to be provided as the conductance path of Vacuum Package, avoid vacuum encapsulation process, the part residual gas residues in the anode and cathode unit and respectively in the hole of the bracing or strutting arrangement 38 of this unit correspondence, two, set position in inactive area 43 of the present invention is coated with respectively and is covered with organic gel and sticking agent, organic gel is false fixing usefulness, with first fixed support device 38 between the negative and positive plate, this organic gel will remove in sintering process in oxidation, set glue can be a glass cement, can be between the anode and cathode structure at high-temperature sintering process set bracing or strutting arrangement 38 of the present invention, three, considering the contraposition that is provided with on the bracing or strutting arrangement 38 of the present invention in light of actual conditions indicates, with cathode structure 20, anode structure 10 and bracing or strutting arrangement of the present invention 38 accurate contrapositions, reflector one side of bracing or strutting arrangement 38 wherein of the present invention is in abutting connection with a side of anode structure fluorescent powder layer, in view of the above, respectively this anode and cathode unit and each described a plurality of hole contraposition of the present invention of anode and cathode structure, it is fixing to carry out vacation by described organic gel earlier, or one strangulation estimate instrument temporarily with fixing, four, semi-finished product after fixing are carried out high temperature sintering, make bracing or strutting arrangement 38 of the present invention be bonded to the moon, anode structure.

For setting forth making electron emission source layer of the present invention (carbon nanotube layer), the application statement specific embodiment that the present invention is following:

The present invention adopts a coefficient of expansion 82 * 10 ^-7～86 * 10 ^-7/ ℃ the bracing or strutting arrangement of glass material, this coefficient of expansion and cathode glass substrate of the invention process and anode glass substrate proximate, overall dimensions design according to field-emissive display module, making a plurality of contrapositions in the contraposition reference position indicates, so that encapsulation is with cloudy, the usefulness of anode structure contraposition reference, this bracing or strutting arrangement is according to this cell array respectively on cathode structure and the anode structure, with the chemical etching hole, shown in the vertical section, has the Fig. 8 of consulting at least, Fig. 9, device Deng two kinds of etch-hole gap structures, bracing or strutting arrangement shown in Figure 8 has first pore diameter 101 at least, second pore diameter 102, wherein first pore diameter 101 is greater than second pore diameter 102, bracing or strutting arrangement the 3rd pore diameter 103 shown in Figure 9, the 4th pore diameter 104, the 5th pore diameter 105, wherein the 3rd pore diameter 103 or the 5th pore diameter are greater than the 4th pore diameter, in addition, second pore diameter and the 4th pore diameter are good greater than the diagonal distance of the electron emission source layer (carbon nanotube layer) of cathode electrode unit at least, in addition, the production location in reflector, then be made in the homonymy of first aperture position with bracing or strutting arrangement shown in Figure 8, with shown in Figure 9, the either side that then is implemented on bracing or strutting arrangement all can, the making in reflector is that base material is implemented to form with evaporation with a kind of aluminium, another kind of is that base material is implemented to form with sputtering way with chromium.The about 700 μ m of glass support device thickness that the present invention adopts, the thickness in reflector can be 80～500 μ m, the zone of imporosity of the present invention array configuration can be described as inactive area 43, in this inactive area 43 coating area and a set district can be set, be coated with a kind of UV glue in the coating area and be organic gel with as the fixing usefulness of vacation, a kind of glass cement of coating is as the usefulness of set glue in the one set district, execution mode is to pass through with reference to the contraposition sign cathode structure, bracing or strutting arrangement of the present invention, anode structure carries out contraposition, wherein reflector one side of bracing or strutting arrangement of the present invention is phosphor powder one side in abutting connection with anode structure, anode structure has a side of fluorescent powder layer, being provided with one is that a plurality of thickness of barrier wall of material can be 50 μ m to 150 μ m with the glass cement, because of usefulness as the conductance path, the setting of barrier rib avoids being continuous next door, be required to be at interval and be provided with, and the barrier rib link position is disposed at respectively between this hole of bracing or strutting arrangement of the present invention, zone between adjacent barrier rib and negative electrode anode unit can form the conductance path of following vacuum suction process, packaged type is to harden with ultra violet lamp by UV glue to fix with vacation, send in the high temperature furnace after auxiliary fixing and carry out high temperature sintering with a plurality of devices of clamping down on again, make bracing or strutting arrangement of the present invention and cathode structure and anode structure set with 560 ℃.Can consult the invention process structure of Fig. 3.And anode structure 10 partial schematic diagrams of the present invention demonstrate in Fig. 6, wherein anode glass panel 31 has fluorescent powder layer 41 on anode conductive layer 32, and barrier rib 39 can suitably be distributed in the side of this fluorescent powder layer 41, and the tool support function, but side that might not each fluorescent powder layer 41 all is provided with this barrier rib 39, and bracing or strutting arrangement 38 surfaces have reflector 44, and cathode structure 20 has dielectric layer 33, make 37 of metal gate layers can attract the electronics emission function by tool thereon, and cathode glass faceplate 35 has cathode conductive layer 34, and it can be in order to carrying electron emission source 36 (carbon nanotube layer).

Must narrate essential structure of the present invention at this, it comprises: anode structure 10, tool fluorescent powder layer 41; Cathode structure 20, tool carbon nanotube layer (being electron emission source 36); And bracing or strutting arrangement 38, between this cathode structure 20 and this anode structure 10, tool reflector 44 is towards this fluorescent powder layer 41, to reflect the light that this fluorescent powder layer 41 is sent.

At this in detail every thin portion of the present invention being described in detail changes, can comprise grid as this cathode structure 20 wherein, between this carbon nanotube layer and this bracing or strutting arrangement 38, the notice Field Emission Display can be two utmost point formulas and also can be three-pole, as semi-conductive packing forms, so grid also is the variation of necessity of the present invention; Wherein this fluorescent powder layer 41 can be wire mark or spraying method is coated with again, can be according to the character of spray coating liquor or preparation method's convenience and select; And wherein this carbon nanotube layer also can be wire mark or spraying method is coated with; For asking better electron emission matter and coating character, wherein this carbon nanotube layer can include the carbon nano-tube behind upgrading, has high electron emissivity; And the preparation method is convenient, more easily makes when this bracing or strutting arrangement is plate shape, and therefore wherein this bracing or strutting arrangement can have a plurality of holes, and each this carbon nanotube layer is arranged in this hole, with divergent bundle; And can further comprise barrier rib and be positioned between this bracing or strutting arrangement and this anode, be communicated with each hole, make that vacuumizing the preparation method is carried out and form the conductance path between this barrier rib; Convenient for the material application of asking evaporation or sputter again, wherein this reflector can be aluminium film or chromium film; And for asking easy to connect when supporting, wherein this bracing or strutting arrangement material can be glass, and its coefficient of expansion is 82 * 10 ^-7To 86 * 10 ^-7/ ℃; And, use the set glue sintering that contains glass material when wherein this anode structure and cathode structure encapsulate bracing or strutting arrangement for the preparation method is convenient.

The Field Emission Display implemented of invention in view of the above, one, the bracing or strutting arrangement in tool reflector can independently implement to make, the preparation method is simple and easy; Two, the bracing or strutting arrangement with tool of the present invention reflector replaces known supporting component in field-emissive display module, installs and make simple and easy, need not cloth plants and is equipped with, and makes the easiness height, and cost is low; Three, display module is penetrated in the field that is made by enforcement of the present invention, be excited on the anode structure phosphor powder produced penetrates partially and the backlight part can be reflected reverberation by the bracing or strutting arrangement institute cremasteric reflex layer in tool of the present invention reflector again, can improve brightness; The feature that rises to maximum of the present invention of brightness wherein.

The above only is a preferable possible embodiments of the present invention, and is non-so promptly limit to claim of the present invention, and the equivalent structure that all utilizations specification of the present invention and accompanying drawing content are done changes, and all is contained in claims of the present invention.

Claims (10)

1, the Field Emission Display in a kind of tool reflector, comprising having:

Anode structure, tool fluorescent powder layer;

Cathode structure, the tool carbon nanotube layer; And

Bracing or strutting arrangement is between this cathode structure and this anode structure; This device tool reflector, the light that this fluorescent powder layer is sent is reflected towards this fluorescent powder layer in this reflector.

2, the Field Emission Display in tool as claimed in claim 1 reflector is characterized in that this cathode structure comprises grid, between this carbon nanotube layer and this bracing or strutting arrangement.

3, the Field Emission Display in tool as claimed in claim 1 reflector is characterized in that this fluorescent powder layer is coated with by wire mark or spraying method.

4, the Field Emission Display in tool as claimed in claim 1 reflector is characterized in that this carbon nanotube layer is coated with by wire mark or spraying method.

5, the Field Emission Display in tool as claimed in claim 1 reflector is characterized in that this carbon nanotube layer includes the carbon nano-tube behind upgrading, has high electron emissivity.

6, the Field Emission Display in tool as claimed in claim 1 reflector is characterized in that this bracing or strutting arrangement has a plurality of holes, and each this carbon nanotube layer is arranged in this hole.

7, the Field Emission Display in tool as claimed in claim 6 reflector is characterized in that further comprising barrier rib between this bracing or strutting arrangement and this anode structure, and forms the conductance path between this barrier rib and be communicated with each hole.

8, the Field Emission Display in tool as claimed in claim 1 reflector is characterized in that this reflector is aluminium film or chromium film.

9, the Field Emission Display in tool as claimed in claim 7 reflector is characterized in that this bracing or strutting arrangement material can be glass, and its coefficient of expansion is 82 * 10 ^-7To 86 * 10 ^-7/ ℃.

10, the Field Emission Display in tool as claimed in claim 1 reflector, it is characterized in that this anode structure and cathode structure to bracing or strutting arrangement encapsulation use the set glue sintering that contains glass material.

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