WO2022239674A1 - 表示素子用封止剤、その硬化物および表示装置 - Google Patents
表示素子用封止剤、その硬化物および表示装置 Download PDFInfo
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- WO2022239674A1 WO2022239674A1 PCT/JP2022/019301 JP2022019301W WO2022239674A1 WO 2022239674 A1 WO2022239674 A1 WO 2022239674A1 JP 2022019301 W JP2022019301 W JP 2022019301W WO 2022239674 A1 WO2022239674 A1 WO 2022239674A1
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Images
Classifications
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- H10K59/80—Constructional details
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- H10K59/8722—Peripheral sealing arrangements, e.g. adhesives, sealants
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- C08G—MACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
- C08G59/00—Polycondensates containing more than one epoxy group per molecule; Macromolecules obtained by polymerising compounds containing more than one epoxy group per molecule using curing agents or catalysts which react with the epoxy groups
- C08G59/02—Polycondensates containing more than one epoxy group per molecule
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- C—CHEMISTRY; METALLURGY
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- C08G59/22—Di-epoxy compounds
- C08G59/226—Mixtures of di-epoxy compounds
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08G—MACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
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- C08G59/20—Macromolecules obtained by polymerising compounds containing more than one epoxy group per molecule using curing agents or catalysts which react with the epoxy groups ; e.g. general methods of curing characterised by the epoxy compounds used
- C08G59/22—Di-epoxy compounds
- C08G59/24—Di-epoxy compounds carbocyclic
-
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08G—MACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
- C08G65/00—Macromolecular compounds obtained by reactions forming an ether link in the main chain of the macromolecule
- C08G65/02—Macromolecular compounds obtained by reactions forming an ether link in the main chain of the macromolecule from cyclic ethers by opening of the heterocyclic ring
- C08G65/04—Macromolecular compounds obtained by reactions forming an ether link in the main chain of the macromolecule from cyclic ethers by opening of the heterocyclic ring from cyclic ethers only
- C08G65/06—Cyclic ethers having no atoms other than carbon and hydrogen outside the ring
- C08G65/16—Cyclic ethers having four or more ring atoms
- C08G65/18—Oxetanes
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L33/00—Compositions of homopolymers or copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and only one being terminated by only one carboxyl radical, or of salts, anhydrides, esters, amides, imides or nitriles thereof; Compositions of derivatives of such polymers
- C08L33/04—Homopolymers or copolymers of esters
- C08L33/06—Homopolymers or copolymers of esters of esters containing only carbon, hydrogen and oxygen, which oxygen atoms are present only as part of the carboxyl radical
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L63/00—Compositions of epoxy resins; Compositions of derivatives of epoxy resins
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L71/00—Compositions of polyethers obtained by reactions forming an ether link in the main chain; Compositions of derivatives of such polymers
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08L—COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
- C08L83/00—Compositions of macromolecular compounds obtained by reactions forming in the main chain of the macromolecule a linkage containing silicon with or without sulfur, nitrogen, oxygen or carbon only; Compositions of derivatives of such polymers
- C08L83/04—Polysiloxanes
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- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09K—MATERIALS FOR MISCELLANEOUS APPLICATIONS, NOT PROVIDED FOR ELSEWHERE
- C09K3/00—Materials not provided for elsewhere
- C09K3/10—Materials in mouldable or extrudable form for sealing or packing joints or covers
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09F—DISPLAYING; ADVERTISING; SIGNS; LABELS OR NAME-PLATES; SEALS
- G09F9/00—Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements
- G09F9/30—Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements in which the desired character or characters are formed by combining individual elements
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B33/00—Electroluminescent light sources
- H05B33/02—Details
- H05B33/04—Sealing arrangements, e.g. against humidity
Definitions
- the present invention relates to a sealant for display elements, a cured product thereof, and a display device.
- Organic EL elements are being used in displays and lighting devices due to their low power consumption. Organic EL elements are easily degraded by moisture and oxygen in the air, so they are used after being sealed with various sealing members. Various materials have been studied as materials to be used for this sealing.
- the inkjet method is suitably used as a method for applying sealants for organic EL display elements, a high level of storage stability is required for organic EL display element sealants for inkjet applications. The reason is as follows.
- the sealant is introduced into an inkjet cartridge, and then the inkjet cartridge is set in an inkjet device. It is carried out by inkjet coating the sealant.
- a long period of several days to several months may pass while the sealant is stored in the cartridge. During this period, the ambient temperature may change, and the ink cartridge may also be subject to temperature history during ink jet application.
- Patent Document 1 discloses that a coating film containing a photopolymerizable compound and a photopolymerization initiator and having a thickness of 10 ⁇ m is irradiated with light having a peak wavelength of 395 nm under an atmospheric atmosphere at normal temperature and pressure, and an integrated light quantity of 800 mJ/ cm2 or more and 4000 mJ/cm2 or more.
- the DSC curve of the photocured product obtained by irradiation under the conditions of 2 or less is described as an ultraviolet curable resin composition having a peak with a peak top within the range of 30 ° C. to 260 ° C. (claim 1).
- Patent Document 2 when a coating film of an ultraviolet curable resin composition having a thickness of 10 ⁇ m is irradiated with ultraviolet rays having a peak wavelength of 395 nm within the range of an integrated light amount of 800 mJ/cm 2 or more and 4000 mJ/cm 2 or less, ultraviolet rays is 1 W/cm 2 or less, and the reaction rate of the polymerizable compound in the coating film is less than 70% (Claim 1).
- a method of incorporating a leveling agent is often used. According to the studies of the present inventors, it was found that a sealing resin composition containing such a leveling agent has a problem that has not been recognized in the past. That is, the inventors have found that the properties of the encapsulating resin composition slightly change during transportation, which causes fluctuations in the ink-jet coating properties and the properties of the resulting cured product.
- the present invention imparts a high level of storage stability to a sealing agent for display elements, especially a sealing resin composition containing a leveling agent.
- the sealant for display elements the cured product, and the display device shown below are provided.
- Sealant for display elements [Measurement procedure] (i) After the display element sealant was brought to a state of 23° C., a part of the display element sealant was sampled, and the display element sealant was applied to the SiN substrate under the following conditions. ink jet application.
- a sealant for display elements having a high level of storage stability is provided.
- FIG. 1 is a cross-sectional view showing a configuration example of an organic EL display device according to an embodiment
- the display element sealant (hereinafter also simply referred to as “sealant” as appropriate) contains the following components (A) to (C).
- the above sealant achieves a high level of storage stability by having the above configuration.
- the details of the sealant will be described below.
- the droplet diameter ratio R is measured by the [measurement procedure] consisting of steps (i) to (iv) described above. Each step (i) to (iv) will be described in detail below.
- ⁇ Step (i) First, after the prepared sealant for display elements is brought to a state of 23° C., a part of the sealant for display elements is sampled and set in an inkjet device. For example, a sealant is introduced into an inkjet cartridge, and this cartridge is set in the inkjet device. The inkjet cartridge is heated so that the sealant has a temperature of, for example, 35°C. There is no limit to the heat retention time in the state in which it is introduced into the ink jet cartridge, but it is preferably from 1 minute to 24 hours.
- the inkjet cartridge into which the sealant for display elements has been introduced is set in an inkjet device, and the sealant for display elements is inkjet-coated on the SiN substrate under the following conditions.
- DMC-11610 manufactured by Fuji Film Dimatix
- DMP-2831 manufactured by Fuji Film Dimatix
- the diameter of the landed droplets of the sealant for display element is measured.
- the diameter can be, for example, the average of the maximum and minimum diameters. Let the measurement result be D1.
- Step (ii) After introducing 9 to 11 g of the prepared sealant for display element into a glass container having a volume of 19 mL, the lid of the container is closed.
- the container containing the display element sealing agent is refrigerated at 5° C. for 7 days.
- the lid of the container is hermetically closed with a sealing tape interposed therebetween.
- the upper space inside the container remains atmospheric.
- the refrigerated sealant for display elements is introduced into an inkjet cartridge at room temperature and kept at 23°C. It is preferable that the sealant for display elements before heat retention is once returned to 23°C. There is no limit to the heat retention time in the state of being introduced into the ink jet cartridge, but it is preferably from 1 minute to 24 hours.
- the inkjet cartridge into which the sealant for display elements has been introduced is set in an inkjet device, and the sealant for display elements is applied to the SiN substrate by inkjet under the following conditions.
- the lower limit of the droplet diameter ratio R is 0.5 or more, preferably 0.7 or more, and more preferably 0.9 or more.
- the upper limit of the droplet diameter ratio R is 1.1 or less, preferably 1.0 or less.
- the encapsulant is prepared through a process of mixing (A) a cationic polymerizable compound, (B) a cationic polymerization initiator, (C) a leveling agent, and optionally a solvent and other additives.
- A) the cationically polymerizable compound and the solvent are preferably subjected to an operation of applying ultrasonic waves to vibrate them and performing nitrogen bubbling to remove dissolved oxygen.
- Component (A) is a cationically polymerizable compound.
- the cationically polymerizable compound is a compound capable of cationic polymerization by light or heat, and has one or more groups selected from an epoxy group, an oxetane ring-containing group, a vinyl ether group and an episulfide group in the molecule. is a compound.
- the content of component (A) in the sealant is preferably 70% by mass or more, more preferably 80% by mass or more, based on the total composition of the sealant. More preferably 85% by mass or more, still more preferably 90% by mass or more.
- the content of component (A) in the encapsulant is preferably 99.9% by mass or less, more preferably 99.9% by mass or less, based on the total composition of the encapsulant. is 99.5% by mass or less, more preferably 99% by mass or less.
- component (A) preferably contains one or both of an epoxy compound and an oxetane compound.
- the total content of the epoxy compound and the oxetane compound is preferably 50% by mass or more, more preferably 70% by mass or more, and still more preferably 90% by mass or more, and component (A) is an epoxy compound and an oxetane compound. may include one or both of
- Epoxy compounds are compounds having one or more epoxy groups in one molecule, and specific examples include monoepoxy compounds, difunctional epoxy compounds, and trifunctional or higher epoxy compounds. Examples of epoxy compounds include EP1 to EP3 below.
- ⁇ EP1 EP1 is an alicyclic epoxy compound having at least one epoxycycloalkyl group or epoxycycloalkenyl group in the molecule, or a group in which at least one epoxy group is bonded to an alicyclic ring through a single bond. A compound having at least one in the molecule.
- ⁇ EP2 EP2 is a bisphenol type epoxy compound such as bisphenol A type epoxy, bisphenol F type epoxy, bisphenol S type epoxy, 2,2'-diallylbisphenol A type epoxy, hydrogenated bisphenol type epoxy, propylene oxide added bisphenol A type epoxy. .
- EP3 is an epoxy compound other than EP1 and EP2, and is a resorcinol type epoxy, a biphenyl type epoxy, a sulfide type epoxy, a diphenyl ether type epoxy, a dicyclopentadiene type epoxy, a naphthalene type epoxy, a phenol novolac type epoxy, and an orthocresol novolak type epoxy. , dicyclopentadiene novolak type epoxy, biphenyl novolak type epoxy, naphthalenephenol novolak type epoxy, glycidylamine type epoxy, alkylpolyol type epoxy, rubber modified epoxy, glycidyl ester compound and the like. From the viewpoint of improving the weather resistance of the sealing material, the epoxy compound preferably contains an alicyclic epoxy compound (EP1 above).
- the alicyclic epoxy compound may be any compound having one or more alicyclic hydrocarbon structures and one or more epoxy groups in the molecule.
- the alicyclic epoxy compound may have one epoxy group or two or more epoxy groups in the molecule, but preferably has two or more epoxy groups from the viewpoint of enhancing the curability of the sealant.
- alicyclic epoxy compounds include compounds containing a cycloalkene oxide structure such as an epoxycyclohexane structure, and compounds in which an epoxy group is bonded directly or via a hydrocarbon group to a cycloaliphatic hydrocarbon. From the viewpoint of enhancing the curability of the sealant, the alicyclic epoxy compound is preferably a compound having a cycloalkene oxide structure.
- the cycloalkene oxide structure is a structure obtained by epoxidizing a cycloalkene with an oxidizing agent such as a peroxide, and is composed of two adjacent carbon atoms and an oxygen atom that constitute an aliphatic ring. It is an epoxy group.
- Cycloalkene oxide is, for example, cyclohexene oxide, cyclopentene oxide, preferably cyclohexene oxide.
- the number of cycloalkene oxide structures in one molecule of the alicyclic epoxy compound having a cycloalkene oxide structure may be one, or two or more. From the viewpoint of enhancing the transparency, heat resistance, light resistance, etc. of the cured product, the number of cycloalkene oxide structures in one molecule is preferably two or more.
- Examples of alicyclic epoxy compounds having a cycloalkene oxide structure include compounds represented by the following general formula (1).
- X is a single bond or a divalent linking group.
- Linking groups are, for example, divalent hydrocarbon groups, carbonyl groups, ether groups (ether bonds), thioether groups (thioether bonds), ester groups (ester bonds), carbonate groups (carbonate bonds) and amide groups (amide bonds).
- divalent hydrocarbon groups include alkylene groups having 1 to 18 carbon atoms and divalent alicyclic hydrocarbon groups.
- alkylene group having 1 to 18 carbon atoms include methylene group, methylmethylene group, dimethylmethylene group, ethylene group, propylene group and trimethylene group.
- divalent alicyclic hydrocarbon groups include 1,2-cyclopentylene group, 1,3-cyclopentylene group, cyclopentylidene group, 1,2-cyclohexylene group, 1,3 divalent cycloalkylene groups (including cycloalkylidene groups) such as -cyclohexylene group, 1,4-cyclohexylene group and cyclohexylidene group.
- X is preferably a single bond or a linking group having an oxygen atom, more preferably a single bond.
- the linking group having an oxygen atom is preferably -CO- (carbonyl group), -O-CO-O- (carbonate group), -COO- (ester group), -O- (ether group ), -CONH- (amide group), a group in which a plurality of these groups are linked, or a group in which one or more of these groups are linked to one or more divalent hydrocarbon groups.
- Specific examples of the alicyclic epoxy compound represented by formula (1) are shown below.
- l represents an integer of 1-10
- m represents an integer of 1-30.
- R represents an alkylene group having 1 to 8 carbon atoms, preferably an alkylene group having 1 to 3 carbon atoms such as methylene, ethylene, propylene and isopropylene.
- n1 and n2 each independently represent an integer of 1 to 30;
- Celoxide (CEL) 2021P Celoxide 2000, Celoxide 2081, Celoxide 3000, Celoxide 8000, and Celoxide 8010 (manufactured by Daicel Corporation).
- epoxy compounds include 1,6-hexanediol diglycidyl ether (e.g., Epogose HD (D), manufactured by Yokkaichi Gosei Co., Ltd.), neopentyl glycol diglycidyl ether (e.g., SR-NPG, Sakamoto Yakuhin (manufactured by Kogyo Co., Ltd.) and other bifunctional aliphatic epoxy compounds.
- the epoxy resin preferably contains an alicyclic epoxy compound and an aliphatic epoxy compound.
- the content of the epoxy compound in the encapsulant is preferably 20% by mass or more, more preferably 30% by mass or more, and more preferably 40% by mass based on the total composition of the encapsulant. % by mass or more.
- the content of the epoxy compound in the sealant is preferably 80% by mass or less, more preferably 70% by mass, based on the total composition of the sealant. % by mass or less, more preferably 60% by mass or less, and even more preferably 50% by mass or less.
- the oxetane compound is a compound having one or more oxetanyl groups in one molecule, and specific examples thereof include monooxetane compounds, bifunctional oxetane compounds, and trifunctional or higher oxetane compounds.
- the oxetane compound can be one or more compounds selected from the group consisting of the following general formulas (2) and (3).
- Y represents an oxygen atom, a sulfur atom or a single bond. From the viewpoint of improving the weather resistance of the sealing material, Y is preferably an oxygen atom.
- R 1a in general formula (2) and R 1b in general formula (3) are each a fluorine atom, an alkyl group having 1 to 6 carbon atoms, a fluoroalkyl group having 1 to 6 carbon atoms, an allyl group, and a 18 represents an aryl group, a furyl group or an ethynyl group.
- s in General formula (2) and t in General formula (3) each represent an integer of 1 or more and 5 or less.
- R 1a or R 1b When multiple R 1a or R 1b are contained in one molecule, they may be the same or different. Also, adjacent R 1a groups or adjacent R 1b groups may form a ring structure.
- R 2a is a hydrogen atom, an alkyl group having 1 to 10 carbon atoms, an alkenyl group having 2 to 6 carbon atoms, an aralkyl group having 7 to 18 carbon atoms, or an alkyl group having 2 to 6 carbon atoms. represents a carbonyl group, an alkoxycarbonyl group having 2 to 6 carbon atoms, an N-alkylcarbamoyl group having 2 to 6 carbon atoms or a (meth)acryloyl group;
- R 2b represents a p-valent linking group.
- p represents 2, 3 or 4, preferably 2.
- R 2b is oxygen, a linear or branched alkylene group having 1 to 12 carbon atoms, a linear or branched poly(alkyleneoxy) group, an arylene group, a siloxane bond, or represents a combination of these.
- the oxetane compound is preferably a bifunctional oxetane compound represented by the following general formula (5) or (6).
- R 5 in general formulas (5) and (6) is each a hydrogen atom, an alkyl group having 1 to 6 carbon atoms, an allyl group, an aryl group, an aralkyl group, a furyl group or a thienyl group.
- Each R 6 is a divalent organic residue.
- C1-C6 alkyl groups include methyl, ethyl, propyl, butyl, pentyl, hexyl and cyclohexyl groups.
- aryl groups include phenyl, naphthyl, tolyl, xylyl groups.
- aralkyl groups include benzyl and phenethyl groups.
- divalent organic residues include alkylene groups, polyoxyalkylene groups, phenylene groups, xylylene groups, and structures represented by the formulas below.
- R 3 in the formula is an oxygen atom, a sulfur atom, -CH 2 -, -NH-, -SO-, -SO 2 -, -C(CF 3 ) 2 - or -C(CH 3 ) 2 - .
- R 4 is an alkylene or arylene group having 1 to 6 carbon atoms. Examples of alkylene groups include those having 1 to 15 carbon atoms such as methylene, ethylene, propylene, butylene and cyclohexylene.
- the polyoxyalkylene group is preferably a polyoxyalkylene group having 4 to 30 carbon atoms, preferably 4 to 8 carbon atoms, examples of which include polyoxyethylene and polyoxypropylene groups.
- the oxetane compound is preferably the oxetane compound represented by general formula (6).
- the compound represented by the general formula (6) include 3-ethyl-3 ⁇ [(3-ethyloxetan-3-yl)methoxy]methyl ⁇ oxetane and the like, and examples of commercial products thereof include Aron oxetane OXT-221 (manufactured by Toagosei Co., Ltd.) and the like are included.
- the oxetane compound is also preferably a compound represented by the following general formula (4).
- Y is an oxygen atom or a sulfur atom. From the viewpoint of improving the weather resistance of the sealing material, Y is preferably an oxygen atom.
- R 1c represents a hydrogen atom, a fluorine atom, an alkyl group having 1 to 6 carbon atoms, a fluoroalkyl group having 1 to 6 carbon atoms, an aryl group having 6 to 18 carbon atoms, a furyl group or a thienyl group.
- R 1c is preferably an alkyl group having 1 to 6 carbon atoms from the viewpoint of improving the curability of the cured sealant.
- R 2c is a hydrogen atom, an alkyl group having 1 to 10 carbon atoms, an alkenyl group having 2 to 6 carbon atoms, an aralkyl group having 7 to 18 carbon atoms, an alkylcarbonyl group having 2 to 6 carbon atoms, or an alkylcarbonyl group having 2 to 6 carbon atoms. It is an alkoxycarbonyl group, an N-alkylcarbamoyl group having 2 to 6 carbon atoms or a (meth)acryloyl group.
- R 2c is preferably an alkyl group having 1 to 10 carbon atoms from the viewpoint of improving the curability of the cured sealant.
- Specific examples of the compound represented by the general formula (4) include 3-ethyl-3-hydroxymethyloxetane, 3-(meth)allyloxymethyl-3-ethyloxetane, (3-ethyl-3-oxetanylmethoxy)methyl Benzene, 4-fluoro-[1-(3-ethyl-3-oxetanylmethoxy)methyl]benzene, 4-methoxy-[1-(3-ethyl-3-oxetanylmethoxy)methyl]benzene, [1-(3- ethyl-3-oxetanylmethoxy)ethyl]phenyl ether, isobutoxymethyl(3-ethyl-3-oxetanylmethyl)ether, isobornyloxyethyl(3-ethyl-3-oxetanylmethyl)ether, isobornyl(3-ethyl- 3-oxetanylmethyl) ether, 2-eth
- the content of the oxetane compound in the encapsulant is preferably 20% by mass or more, more preferably 30% by mass, based on the total composition of the encapsulant, from the viewpoint of improving the curability of the cured product of the encapsulant. % or more, more preferably 40 mass % or more, still more preferably 50 mass % or more.
- the content of the oxetane compound in the sealant is preferably 80% by mass or less, more preferably 70% by mass, based on the total composition of the sealant. % or less, more preferably 60 mass % or less.
- Component (B) is a cationic polymerization initiator.
- cationic polymerization initiators include one or more selected from the group consisting of radical photoinitiators and thermal polymerization initiators.
- the component (B) is a photocationic polymerization initiator (UV radical initiator, UV cationic initiator) that generates radicals or ions when irradiated with light such as ultraviolet rays. ) is preferably included.
- the photocationic polymerization initiator may be a compound capable of generating cationic species by light such as light irradiation and initiating polymerization of the component (A).
- photocationic polymerization initiators include salts of onium ions (onium salts) represented by the following general formula (7). Such onium salts release Lewis acids upon photoreaction. [R 12 a R 13 b R 14 c R 15 d W] v+ [MX v+u ] u- (7)
- W represents S, Se, Te, P, As, Sb, Bi, O, I, Br, Cl, or N ⁇ N.
- R 12 , R 13 , R 14 and R 15 each independently represent an organic group, and a, b, c and d each independently represent an integer of 0-3. Note that "a+b+c+d" is equal to the valence of W.
- M represents a metal or metalloid that constitutes the central atom of the halogenated complex [MX v+u ].
- M include B, P, As, Sb, Fe, Sn, Bi, Al, Ca, In, Ti, Zn, Sc, V, Cr, Mn, and Co.
- X represents a halogen atom such as F, Cl, Br
- u represents the net charge of the halide complex ion
- v represents the valence of M.
- onium ion in the general formula (7) examples include diphenyliodonium, bis(4-methoxyphenyl)iodonium, 4-methylphenyl-4′-isopropylphenyliodonium, bis(4-methylphenyl)iodonium, bis(4- tert-butylphenyl)iodonium, bis(dodecylphenyl)iodonium, tolylcumyliodonium, triphenylsulfonium, diphenyl-4-thiophenoxyphenylsulfonium, bis[4-(diphenylsulfonio)-phenyl]sulfide, bis[4 -(Di(4-(2-hydroxyethyl)phenyl)sulfonio)-phenyl]sulfide, ⁇ 5-2,4-(cyclopentagenyl)[1,2,3,4,5,6- ⁇ -(methyl ethyl)benzene]-
- anions in general formula (7) include tetrafluoroborate, tetrakis(pentafluorophenyl)borate, hexafluorophosphate, hexafluoroantimonate, hexafluoroarsenate, and hexachloroantimonate.
- the anion in general formula (7) is preferably selected from the group consisting of tetrafluoroborate, tetrakis(pentafluorophenyl)borate and hexafluorophosphate in terms of excellent safety for living organisms.
- Examples of commercially available photocationic polymerization initiators represented by the general formula (7) include Irgacure250, Irgacure270, Irgacure290 (manufactured by BASF), CPI-100P, CPI-101A, CPI-200K, CPI-210S, CPI- 310B, CPI-400PG (manufactured by San-Apro), SP-150, SP-170, SP-171, SP-056, SP-066, SP-130, SP-140, SP-601, SP-606, SP-701 (manufactured by ADEKA), PI-2074 (trade name, manufactured by Rhodia), and the like.
- the photocationic initiator represented by the general formula (7) is preferably Irgacure270, Irgacure290, CPI-100P, CPI-101A, CPI-200K, CPI-210S, CPI-310B , CPI-400PG, SP-150, SP-170, SP-171, SP-056, SP-066, SP-601, SP-606, SP-701 and PI-2074, or Two or more.
- the content of component (B) in the encapsulant is preferably 0.1% by mass or more, more preferably 0.2% by mass, based on the total composition of the encapsulant. Above, more preferably 0.3% by mass or more.
- the content of component (B) in the encapsulant is preferably 10% by mass or less, more preferably 5% by mass, based on the total composition of the encapsulant. % or less, more preferably 3 mass % or less, still more preferably 2 mass % or less.
- Component (C) is a leveling agent.
- a leveling agent is an additive for facilitating the wetting and spreading of the sealing agent applied by inkjet on the surface of the object to be applied.
- the leveling agent improves the fluidity and defoaming properties of the sealant, and also plays a role in improving the smoothness of the surface of the formed sealant coating film.
- leveling agents include fluorine-based, acrylic, and siloxane-based polymers.
- component (C) is preferably one or more selected from the group consisting of silicone-based polymers and acrylate-based (acrylic-based) polymers, since the surface-modifying action is small.
- the silicone-based polymer is preferably a polymer having a polymethylsiloxane structure or polydimethylsiloxane structure in its molecule. More preferably, the number of repetitions of dimethylsiloxane is, for example, 2 or more and 150 or less.
- silicone-based polymers include polydimethylsiloxane, polyether-modified polydimethylsiloxane, polyester-modified polydimethylsiloxane, polymethylalkylsiloxane, aralkyl-modified polymethylalkylsiloxane, and the like.
- An acrylic polymer is specifically a polymer containing a structural unit derived from a (meth)acrylic acid alkyl ester, that is, a polymer of monomers containing a (meth)acrylic acid alkyl ester.
- the number of carbon atoms in the alkyl chain of the (meth)acrylic acid alkyl ester is preferably 4 or more, more preferably 6 or more.
- the upper limit of the number of carbon atoms in the alkyl chain of the alkyl acrylate is 12, for example.
- acrylic acid alkyl esters examples include butyl (meth)acrylate, 2-ethylhexyl (meth)acrylate, copolymers of butyl acrylate and 2-ethylhexyl acrylate, and the like.
- the acrylate-based polymer preferably contains no fluorine atoms.
- One type or two or more types of (meth)acrylic acid alkyl esters may be used.
- leveling agents examples include BYK-310, BYK-310N, BYK-323, BYK-340, BYK-350 manufactured by Big Chemie Japan; Polyflow KL-100, Polyflow KL-700, Polyflow KL-850, Polyflow No. manufactured by Kyoeisha Chemical Co., Ltd. 90; F-552, F-553, F-554, F-556, F-557, F-559 manufactured by DIC; Biscoat 13F manufactured by Osaka Organic Chemical Co., Ltd. and the like can be mentioned.
- the weight average molecular weight Mw of the polymer constituting the leveling agent is, for example, about 1,000 to 20,000, preferably 2,000 to 10,000.
- the weight average molecular weight Mw of the polymer constituting the leveling agent is measured by gel permeation chromatography (GPC) based on polystyrene standard substances.
- the content of leveling agent (C) is preferably 0.01% by mass or more, more preferably 0.05% by mass or more, and still more preferably 0.1% by mass, relative to 100% by mass of component (A). That's it.
- the content of the leveling agent (C) is preferably 5% by mass or less, more preferably 3% by mass or less, and even more preferably 1% by mass or less based on 100% by mass of the component (A).
- the sealant may contain components other than components (A) to (C). Examples of components other than components (A) to (C) are given below.
- Component (D) Component (D) is one or more compounds selected from the group consisting of benzotriazole compounds, triazine compounds, monophenol compounds, bisphenol compounds, trisphenol compounds, phosphite compounds and oxaphosphaphenanthrene oxide compounds. be. By further including the component (D) in the sealing agent, the weather resistance of the sealing material can be further improved.
- a specific example of the benzotriazole compound is 2-(2-hydroxy-5-methylphenyl)benzotriazole.
- ⁇ TinuvinP ⁇ Tinuvin234 ⁇ Tinuvin234FF ⁇ Tinuvin326 ⁇ Tinuvin326FL ⁇ Tinuvin329 ⁇ Tinuvin329FL ⁇ Tinuvin360 ⁇ Chimassorb81 ⁇ Chimassorb81FL(BASF ⁇ ) ⁇ KEMISORB71 ⁇ KEMISORB73 ⁇ KEMISORB74 ⁇ KEMISORB79 ⁇ KEMISORB279( ⁇ Co.), JF-77, JF-79, JF-80, JF-83, and JF-832 (manufactured by Johoku Chemical Industry Co., Ltd.).
- triazine compounds include 2,4-bis(2-hydroxy-4-butyloxyphenyl)-6-(2,4-bis-butyloxyphenyl)-1,3,5-triazine, 2-hydroxyphenyl -s-triazines.
- Specific examples of commercially available triazine compounds include Tinuvin 460, Tinuvin 1577ED, Tinuvin 1600 (manufactured by BASF), and KEMISORB 102 (manufactured by Chemipro Kasei).
- monophenolic compounds include benzenepropanoic acid, 3,5-bis(1,1-dimethylethyl)-4-hydroxy-C7-C9 side chain alkyl esters, 2,6-di-t-butyl-p- Cresols can be mentioned.
- monophenol compounds include Irganox 1135 (manufactured by BASF), KEMISORB112, KEMISORB113, KEMISORB114, and KEMINOX76 (manufactured by Chemipro Kasei).
- a specific example of the bisphenol compound is 2,2-methylenebis(4-methyl-6-t-butylphenol).
- a specific example of a commercially available bisphenol compound is KEMINOX9425 (manufactured by Chemipro Kasei Co., Ltd.).
- Specific examples of trisphenol compounds include 1,1,3-tris(2-methyl-4-hydroxy-5-t-butylphenyl)butane.
- component (D) preferably contains one or more selected from the group consisting of a benzotriazole compound, a triazine compound and a monophenol compound. Preferably one or two of these are included.
- the content of component (D) in the sealing material is preferably 0.001% by mass or more, more preferably 0%, based on the total composition of the sealing material. 0.01% by mass or more, more preferably 0.1% by mass or more.
- the content of the component (D) in the encapsulating agent is preferably 10% by mass or less, more preferably 5% by mass, based on the total composition of the encapsulating agent. % or less, more preferably 2 mass % or less.
- the sealant may further contain components other than those described above as long as the effects of the present invention are not impaired.
- examples of other ingredients include tackifiers, fillers, curing accelerators, plasticizers, surfactants, heat stabilizers, flame retardants, antistatic agents, antifoaming agents, silane coupling agents and UV absorbers. is included.
- Sensitizers include, for example, photocationic sensitizers.
- the photosensitizer is preferably a compound that is excited by light with a wavelength of 350 nm to 450 nm from the viewpoint of being compatible with wavelength-selective light sources such as UV-LEDs.
- sensitizers include polynuclear aromatics such as pyrene, perylene, triphenylene and anthracene; xanthenes such as fluorescein, eosin, erythrosine, rhodamine B and rose bengal; xanthones such as diethylthioxanthone; cyanines such as thiacarbocyanine and oxacarbocyanine; merocyanines such as merocyanine and carbomerocyanine; rhodacyanins; acridines such as flavin and acriflavin; acridones such as acridon and 10-butyl-2-chloroacridone; anthraquinones; squariums; styryls; is mentioned.
- the photosensitizer is preferably polycyclic aromatics, acridones, coumarins or base styryls, more
- the content of the photosensitizer in the encapsulant is preferably 0.1% by mass or more with respect to 100 parts by mass of the component (A) from the viewpoint of making the curability of the encapsulant more preferable. More preferably 0.2% by mass or more, still more preferably 0.3% by mass or more, preferably 3% by mass or less, more preferably 1.5% by mass or less, further preferably 1% by mass or less is.
- the sealing agent contains a coupling agent
- the adhesion between the sealing material and the material to be sealed can be further enhanced.
- coupling agents include silane coupling agents.
- the silane coupling is preferably performed using a silane coupling agent having a functional group common to the polymerizable functional group in the component (A), or the component It is a silane coupling agent having a functional group capable of reacting with the polymerizable functional group in (A).
- the coupling agent is selected from the group consisting of a silane coupling agent having an epoxy group and a silane coupling agent having a functional group that reacts (for example, addition reaction) with the epoxy group. It is preferable to include one or more selected types.
- silane coupling agents having epoxy groups include ⁇ -glycidoxypropyltrimethoxysilane and ⁇ -(3,4-epoxycyclohexyl)ethyltrimethoxysilane.
- silane coupling agents having functional groups capable of reacting with epoxy groups include amino groups such as primary amino groups and secondary amino groups; carboxyl groups and the like; methacryloyl groups; isocyanate groups and the like. mentioned.
- silane coupling agents include N-2-(aminoethyl)-3-aminopropylmethyldimethoxysilane, N-2-(aminoethyl)-3-aminopropylmethyltrimethoxysilane, N-2- (aminoethyl)-3-aminopropylmethyltriethoxysilane, 3-aminopropyltrimethoxysilane, 3-aminopropyltriethoxysilane, 3-triethoxysilyl-N-(1,3-dimethyl-butylidene)propylamine, N-phenyl-3-aminopropyltrimethoxysilane or 3-(4-methylpiperazino)propyltrimethoxysilane, trimethoxysilylbenzoic acid, ⁇ -methacryloxypropyltrimethoxysilane, ⁇ -isocyanatopropyltriethoxysilane. .
- Coupling agents may also include those other than those described above, such as other silane coupling agents.
- Other silane coupling agents include, for example, vinyltriacetoxysilane and vinyltrimethoxysilane.
- the molecular weight of the coupling agent is preferably 80 to 800 from the viewpoint of improving the adhesion between the sealing material and the material to be sealed.
- the content of the coupling agent in the sealant is preferably 0.5% by mass or more with respect to 100 parts by mass of the component (A) from the viewpoint of improving the adhesion between the sealing material and the material to be sealed. more preferably 1% by mass or more, more preferably 1.5% by mass or more, preferably 5% by mass or less, more preferably 4% by mass or less, and 3% by mass or less It is also preferable to have
- the sealant may contain a polymerization inhibitor.
- polymerization inhibitors include 2,2,6,6-tetramethylpiperidine-1-oxyl (free radical), 4-hydroxy-2,2,6,6-tetramethylpiperidine-1-oxyl (free radical ), 4-amino-2,2,6,6-tetramethylpiperidine-1-oxyl (free radical), 4-pertamide-2,2,6,6-tetramethylpiperidine-1-oxyl (free radical), 4-acetamido-2,2,6,6-tetramethylpiperidine-1-oxyl (free radical), 4-carboxy-2,2,6,6-tetramethylpiperidine-1-oxyl (free radical), 4- Methoxy-2,2,6,6-tetramethylpiperidine-1-oxyl (free radical) and 4-oxo-2,2,6,6-tetramethylpiperidine-1-oxyl (free radical).
- the content of the polymerization inhibitor in the encapsulant is preferably It is 0.001% by mass or more, more preferably 0.01% by mass or more, and still more preferably 0.005% by mass or more.
- the content of the polymerization inhibitor in the encapsulant is preferably 1% by mass or less, more preferably 0.75, based on the total composition of the encapsulant. % by mass or less, more preferably 0.5% by mass or less.
- the sealant preferably does not contain a solvent, from the viewpoint of improving the weather resistance of the sealing material and from the viewpoint of being suitable for forming a cured material by a coating method such as an inkjet method.
- the sealant contains a solvent
- the content of the solvent is more than 0% by mass, preferably 0.05% by mass or less, and more preferably 0.03% by mass or less.
- Specific embodiments in which the encapsulant does not contain a solvent include those in which no solvent is intentionally blended during the preparation of the encapsulant.
- the glass transition temperature (Tg) of the cured product of the sealant is 40° C. or higher, preferably 50° C. or higher, more preferably 60° C. or higher, from the viewpoint of improving the heat resistance of the sealing material. Moreover, from the viewpoint of improving flexibility, the Tg of the cured product of the sealant is less than 200°C, preferably 190°C or less, more preferably 180°C or less.
- the glass transition temperature (Tg) is measured by the following procedure.
- the cured product of the sealant is obtained by sandwiching the uncured sealant between polyethylene terephthalate (PET) films using a Teflon (registered trademark) sheet with a thickness of 100 ⁇ m as a formwork, and exposing it to a UV-LED with a wavelength of 395 nm at an illuminance of 1000 mW/ It is obtained by curing under the conditions of 1,500 mJ/cm 2 of accumulated light amount.
- the obtained cured product is cut into a size of 10 mm width ⁇ 40 mm length with a cutter.
- a sealant having a Tg within a specific range can be obtained, for example, by appropriately selecting components and blending ratios contained in the sealant and adjusting manufacturing conditions.
- the properties of the encapsulant are not limited, and from the viewpoint of improving the flexibility and plasma resistance of the encapsulant and from the viewpoint of being suitable for forming a cured material by a coating method such as an inkjet method, the encapsulant is It is preferably liquid.
- the sealing agent is preferably used for coating, and more preferably used for coating by an inkjet method.
- the viscosity of the sealing agent measured at 25° C. and 20 rpm using an E-type viscometer is preferably 5 mPa ⁇ s or more, more preferably 8 mPa ⁇ s or more, and even more preferably, from the viewpoint of improving the inkjet ejection property. is 10 mPa ⁇ s or more.
- the viscosity of the sealant is preferably 80 mPa ⁇ s or less, more preferably 50 mPa ⁇ s or less, and still more preferably 30 mPa ⁇ s or less.
- the thixotropic index (TI value) of the sealant is preferably 0.8 or more, more preferably 0.9 or more, and preferably 1.1 or less, from the viewpoint of improving inkjet ejection properties. It is preferably 1.0 or less.
- the dielectric constant of the cured product of the sealant is preferably 4.0 or less, more preferably 3.8 or less, and even more preferably 3.6 or less, from the viewpoint of improving the sealing properties of the sealant. .
- the dielectric constant of the cured product of the sealant can be set to, for example, 1.0 or more.
- the dielectric constant of the cured product of the sealant is as follows: Permittivity measured at a frequency of 100 kHz.
- the method for producing the sealant is not limited, and includes, for example, mixing components (A) to (C) and other components as appropriate, such as various additives added as necessary.
- mixing components for example, various known kneaders such as a planetary stirrer, homodisper, universal mixer, Banbury mixer, kneader, two-roll, three-roll, and extruder are used alone or in combination, Examples include a method of uniformly kneading under conditions such as normal temperature, heating, normal pressure, reduced pressure, increased pressure, or inert gas flow.
- a sealing material can also be formed using the obtained sealing agent.
- a sealant may be applied onto the substrate and dried.
- a known method such as an inkjet method, screen printing, or dispenser coating can be used for coating. Drying can be carried out, for example, by heating to a temperature at which component (A) does not polymerize.
- the shape of the sealing material to be obtained is not limited, and can be, for example, film-like or layer-like.
- the cationically polymerizable compound and the solvent are excessively It is preferable to perform an operation of applying a sound wave to vibrate and performing nitrogen bubbling to remove dissolved oxygen. Moreover, it is preferable to carry out an operation of removing dissolved oxygen by performing nitrogen bubbling even after mixing.
- the encapsulating material is, for example, a cured product obtained by curing the encapsulant in the present embodiment, and more specifically, a photocured product of the encapsulant.
- Examples of methods for photocuring the sealant include low-pressure mercury lamps, medium-pressure mercury lamps, high-pressure mercury lamps, ultra-high-pressure mercury lamps, excimer lasers, chemical lamps, black light lamps, microwave-excited mercury lamps, metal halide lamps, sodium lamps, and halogen lamps. , a xenon lamp, an LED lamp, a fluorescent lamp, sunlight, a method of curing by light irradiation using a light source such as an electron beam irradiation device.
- the sealant contains the components (A) to (C) in combination and the droplet diameter ratio R is within a specific range. can be realized.
- the sealant obtained in the present embodiment is suitably used for sealing display elements, preferably organic EL display elements, for example. According to the present embodiment, it is possible to obtain a sealant that achieves a high level of storage stability, so that the reliability of a sealing film and a display device obtained from such a sealant can be improved. Damage to the display element in the manufacturing process of the display device can be effectively suppressed, and the manufacturing stability of the display device can be improved.
- a display device having excellent weather resistance can be obtained by using the cured product of the sealant obtained in the present embodiment, for example, as a sealant for a display element, preferably an organic EL display element.
- a sealant for a display element preferably an organic EL display element.
- An example of the configuration of the display device will be described below using the organic EL display device as an example.
- FIG. 1 is a cross-sectional view showing a configuration example of an organic EL display device according to this embodiment.
- the display device 100 shown in FIG. 1 is an organic EL display device, and includes a substrate (base layer 50), an organic EL element (light emitting element 10) arranged on the base layer 50, and the light emitting element 10.
- an overlying sealing layer 22 (which may be an overcoat layer 22 or a barrier layer 22); Then, for example, the sealing layer 22 is composed of a cured product of the sealing agent in the present embodiment.
- the display device 100 includes a barrier layer 21 (which may be the touch panel layer 21 or the surface protective layer 21) and a sealing layer 22 (which may be the touch panel layer 21 or the surface protective layer 21) as layers located on the observation side of the light emitting element 10. It has an overcoat layer 22 or a barrier layer 22 ), a planarizing layer 23 (which may be a sealing layer 23 ), and a barrier layer 24 .
- the planarization layer 23 is provided on the base layer 50 so as to cover the light emitting element 10
- the barrier layer 24 is provided on the surface of the planarization layer 23 .
- the sealing layer 22 is provided on the base layer 50 so as to cover the planarizing layer 23 and the barrier layer 24 .
- a barrier layer 21 is provided on the sealing layer 22 .
- each layer is not limited, and an appropriate configuration can be adopted based on generally known information. Moreover, such a display device 100 can be manufactured based on generally known information.
- the organic EL display device may have a top emission structure or a bottom emission structure. The organic EL element is placed on the substrate, and before being protected by the resin layer obtained by curing the sealant in the present embodiment, it is coated with an inorganic material film in advance so as to cover the region including the organic EL element. It is preferable that
- the material of the base material layer 50 is not limited, and various materials such as glass substrates, silicon substrates, and plastic substrates can be used.
- a TFT substrate with multiple TFTs (thin film transistors) and a planarization layer on the substrate can also be used.
- the inorganic material forming the barrier layer 24 examples include silicon nitride (SiN x ), silicon oxide (SiO x ), and aluminum oxide (Al 2 O 3 ).
- the inorganic material film may be a single layer or a laminate of a plurality of layers.
- Examples of methods for coating the light emitting element 10 with an inorganic material film include sputtering, electron cyclotron resonance (ECR) plasma CVD, and the like when the inorganic material film is made of silicon nitride or silicon oxide.
- ECR electron cyclotron resonance
- the sputtering method can be performed using, for example, a single or mixed gas such as argon or nitrogen as a carrier gas under the conditions of room temperature, power of 50 to 1000 W, and pressure of 0.001 to 0.1 Torr.
- a single or mixed gas such as argon or nitrogen as a carrier gas under the conditions of room temperature, power of 50 to 1000 W, and pressure of 0.001 to 0.1 Torr.
- the ECR plasma CVD method uses, for example, a mixed gas of SiH 4 and O 2 or a mixed gas of SiH 4 and N 2 at a temperature of 30° C. to 100° C., a pressure of 10 mTorr to 1 Torr, a frequency of 2.45 GHz, and an electric power. It can be performed under the condition of 10 to 1000W.
- the thickness of the resin layer is not limited, it is, for example, 0.1 to 50 ⁇ m, preferably 1 to 20 ⁇ m, from the viewpoint of improving sealing performance and flexibility performance.
- an inorganic material film (barrier layer 24) on the above resin layer in order to enhance the effect of protecting the light emitting element 10 from moisture and oxygen in the air.
- the inorganic material forming the inorganic material film laminated on the resin layer and the forming method thereof are the same as those for the inorganic material film covering the light emitting element 10 described above.
- the thickness of the inorganic material film formed on the resin layer is not limited, it is, for example, 0.01 to 10 ⁇ m, preferably 0.1 to 5 ⁇ m, from the viewpoint of improving the sealing performance.
- a barrier layer 24, a sealing layer 22, and a barrier layer 24 are provided on the light emitting element 10 in this order.
- the sealing layer 22 is composed of a resin layer obtained by curing the sealing agent of the present embodiment, which has a high level of storage, the display device 100 with excellent reliability can be obtained. . Specifically, damage to the barrier layer 24 can be suppressed even when the plasma treatment process is performed to form the barrier layer 24 on the sealing layer 22 . Moreover, since the resin layer itself constituting the sealing layer 22 is not easily deteriorated by the plasma treatment, damage to the light emitting element 10 can be suppressed.
- Polymerizable compound 2 oxetane compound, (3-ethyl-3 ⁇ [(3-ethyloxetane-3-yl) methoxy] methyl ⁇ oxetane, OXT-221, manufactured by Toagosei Polymerizable compound 3: epoxy compound (glycidyl ether compound), 1,6-hexanediol diglycidyl ether, Epogose HD (D), manufactured by Yokkaichi Gosei Co., Ltd.
- Polymerization initiator 1 photo cationic initiator, CPI-210S, manufactured by San-Apro Co., Ltd.
- Leveling agent 1 polyester-modified polydimethylsiloxane, BYK-310N (manufactured by BYK-Chemie)
- Leveling agent 2 aralkyl-modified polymethylalkylsiloxane, BYK-323 (manufactured by BYK-Chemie)
- Leveling agent 3 reactive fluorine leveling agent, Viscoat 13F (manufactured by Osaka Organic Chemical Co., Ltd.)
- Leveling agent 4 acrylic copolymer, BYK-350 (manufactured by BYK-Chemie)
- Leveling agent 5 Acrylic copolymer, Polyflow No.
- Leveling agent 6 Silicone-containing polymer, Polyflow KL-700 (manufactured by Kyoei Co., Ltd.)
- Leveling agent 7 fluorine-containing group/lipophilic group-containing oligomer, F552 (manufactured by DIC) (sensitizer)
- Sensitizer 1 photocationic sensitizer (anthracene compound), UVS-1331 (manufactured by Kawasaki Kasei Co., Ltd.)
- Examples 1 to 10, Comparative Examples 1 and 2 Each component was blended so as to have the blending composition shown in Table 1 to obtain a sealant that is a liquid composition containing no solvent.
- a sealant that is a liquid composition containing no solvent.
- components other than the polymerization initiator were placed in a 19 mL glass container and mixed. After applying ultrasonic waves to the glass container for 10 minutes, nitrogen bubbling was performed at 0.1 mL/min. A polymerization initiator in the amount shown in Table 1 was added to the resulting mixture and further mixed. After that, the mixture was stirred until no powder was visible to obtain a sealant.
- Drop diameter ratio R The droplet diameter ratio R was measured by steps (i) to (iv) below. Measurements were started within 3 hours after the encapsulant obtained in each example was produced. ⁇ Step (i) After the sealant obtained in each example was brought to a state of 23° C., a part of the display element sealant was sampled and introduced into an inkjet cartridge (DMC-11610, manufactured by Fuji Film Dimatix). After introduction, the temperature of the sealant was brought to 35° C. by heating the cartridge. It was kept at this temperature for 10 minutes.
- DMC-11610 manufactured by Fuji Film Dimatix
- the inkjet cartridge into which the sealant was introduced was set in an inkjet device (DMP-2831, manufactured by Fuji Film Dimatix), and the sealant was applied to the SiN substrate by inkjet under the following conditions.
- the diameter of the droplet of the sealant was measured. The average value of the two values of the maximum diameter and the minimum diameter was taken, and the measurement result was defined as D1.
- Step (ii) 5 After introducing 9 to 11 g of the display element sealing agent that has been brought to a state of 23° C. in the step (i) into a glass container having a volume of 19 mL, the lid of the container is tightly closed with a sealing tape interposed; Refrigerated at 0 C for 7 days. The upper space inside the container was kept at atmospheric air.
- step (iii) The sealant refrigerated in step (ii) was once returned to 23° C., introduced into an inkjet cartridge and kept at 35° C. for 10 minutes. Next, the inkjet cartridge into which the sealing agent was introduced was set in an inkjet device, and the sealing agent was inkjet-coated on the SiN substrate under the following conditions.
- (b) SiN substrate temperature and ambient temperature: 23°C After 180 seconds from the landing, the diameter of the landing droplet of the sealant for display element was measured. The average value of the two values of the maximum diameter and the minimum diameter was taken, and the measurement result was defined as D2.
- Viscosity measurement The viscosity of the curable composition obtained in each example was measured at 25° C. and 20 rpm using an E-type viscometer (LV DV-II+ Pro, manufactured by BROOKFIELD).
- Inkjet coating characteristics Inkjet ejection properties were evaluated as the inkjet coating properties in steps (i) and (iii) shown in the droplet diameter ratio R measurement method.
- DMP-2831 manufactured by FUJIFILM Dimatix Co., Ltd. was used as an inkjet ejection device, and inkjet coating was performed at a head temperature of 35°C and an applied voltage of 35V. Evaluation criteria are shown below. OK: When the inkjet head was heated to 35° C. and the liquid was ejected, the ink could be applied stably from the inkjet device.
- NG When the inkjet head was heated to 35° C. and ejected, mist was generated during the inkjet ejection, or ejection failed.
- the resulting coating film was allowed to stand at room temperature (25° C.) for 3 minutes while purging with nitrogen, and then cured with a UV-LED with a wavelength of 395 nm at an illuminance of 1000 mW/cm 2 and an integrated light intensity of 1500 mJ/cm 2 .
- Coating width is 20.50 mm or more OK: Coating width is less than 20.50 mm
- the sealant obtained in each example contains a leveling agent and has a droplet diameter ratio R within a specific range, so that it has a high level of storage stability and a high edge It was retentive. Therefore, by using the sealing agent in each example for sealing the organic EL display element, an organic EL display device having excellent reliability can be obtained.
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Abstract
Description
このような封止剤の保存安定性を改善する従来技術として、特許文献1および特許文献2に記載された技術が知られている。
[1] 以下の成分(A)~(C):
(A)カチオン重合性化合物、
(B)カチオン重合開始剤、
(C)レベリング剤
を含有する表示素子用封止剤であって、
以下の測定手順で測定される、当該表示素子用封止剤の滴径比Rが0.5以上1.1以下である、
表示素子用封止剤。
[測定手順]
(i)当該表示素子用封止剤を23℃の状態とした後、当該表示素子用封止剤の一部を採取し、SiN基板に対して当該表示素子用封止剤を以下の条件にてインクジェット塗布する。
(a)吐出量:7ピコリットル
(b)SiN基板の温度および雰囲気温度:23℃
着弾後、180秒経過後に、当該表示素子用封止剤の着弾滴の直径を測定する。測定結果をD1とする。
(ii)上記(i)の工程で23℃の状態とした上記表示素子用封止剤9~11gを、容積19mLのガラス製容器に導入した後、容器蓋を締める。当該表示素子用封止剤入り容器を5℃で7日間冷蔵する。
(iii)前記(ii)の工程で冷蔵した上記表示素子用封止剤を採取し、SiN基板に対して上記表示素子用封止剤を以下の条件にてインクジェット塗布する。
(a)吐出量:7ピコリットル
(b)SiN基板の温度および雰囲気温度:23℃
着弾後、180秒経過後に、当該表示素子用封止剤の着弾滴の直径を測定する。測定結果をD2とする。
(iv)上記D1および上記D2から、滴径比R=D2/D1の値を算出する。
[2] [1]に記載の表示素子用封止剤であって、
上記成分(A)が、エポキシ化合物およびオキセタン化合物の一方または両方を含む、表示素子用封止剤。
[3] [1]または[2]に記載の表示素子用封止剤であって、
上記成分(C)が、シリコーン系ポリマー及びアクリレート系ポリマーからなる群から選択される1種以上である、表示素子用封止剤。
[4] [1]~[3]のいずれか一つに記載の表示素子用封止剤であって、
上記成分(C)が、分子内にポリメチルシロキサン構造またはポリジメチルシロキサン構造を有するシリコーン系ポリマーである、表示素子用封止剤。
[5] [1]~[4]のいずれか一つに記載の表示素子用封止剤であって、
上記成分(C)が、(メタ)アクリル酸アルキルエステル由来の構造単位を含むポリマーである、表示素子用封止剤。
[6] [1]~[5]のいずれか一つに記載の表示素子用封止剤であって、
上記成分(C)の含有量は、上記(A)成分100質量%に対して、0.01質量%以上5質量%以下である、表示素子用封止剤。
[7] [1]~[6]のいずれか一つに記載の表示素子用封止剤であって、
上記成分(B)が、光によって重合を開始させるカチオン種を発生する光カチオン重合開始剤である、表示素子用封止剤。
[8] [1]~[7]のいずれか一つに記載の表示素子用封止剤であって、
E型粘度計で測定された25℃、20rpmにおける粘度が5mPa・s以上80mPa・s以下である、表示素子用封止剤。
[9] [1]~[8]のいずれか一つに記載の表示素子用封止剤であって、
有機EL表示素子の封止用である、表示素子用封止剤。
[10] [1]~[9]のいずれか一つに記載の表示素子用封止剤を硬化してなる硬化物。
[11] 基板と、
上記基板上に配置された表示素子と、
上記表示素子を被覆する封止層と、
を含み、
上記封止層が、[1]~[9]のいずれか一つに記載の表示素子用封止剤の硬化物により構成されている、表示装置。
本実施形態において、表示素子用封止剤(以下、適宜単に「封止剤」とも呼ぶ。)は、以下の成分(A)~(C)を含有する。
(A)カチオン重合性化合物
(B)カチオン重合開始剤
(C)レベリング剤
そして、以下の測定手順で測定される、表示素子用封止剤の滴径比Rが0.5以上1.1以下である。
[測定手順]
(i)表示素子用封止剤を23℃の状態とした後、表示素子用封止剤の一部を採取し、SiN基板に対して表示素子用封止剤を以下の条件にてインクジェット塗布する。
(a)吐出量:7ピコリットル
(b)SiN基板の温度および雰囲気温度:23℃
着弾後、180秒経過後に、表示素子用封止剤の着弾滴の直径を測定する。測定結果をD1とする。
(ii)上記(i)の工程で23℃の状態とした表示素子用封止剤9~11gを、容積19mLのガラス製容器に導入した後、容器蓋を締める。表示素子用封止剤入り容器を5℃で7日間冷蔵する。
(iii)上記(ii)の工程で冷蔵した表示素子用封止剤を採取し、SiN基板に対して表示素子用封止剤を以下の条件にてインクジェット塗布する。
(a)吐出量:7ピコリットル
(b)SiN基板の温度および雰囲気温度:23℃
着弾後、180秒経過後に、表示素子用封止剤の着弾滴の直径を測定する。測定結果をD2とする。
(iv)上記D1およびD2から、滴径比R=D2/D1の値を算出する。
以下、上記封止剤の詳細について説明する。
(滴径比R)
滴径比Rは、前述の(i)~(iv)のステップからなる[測定手順]により測定される。以下、(i)~(iv)の各ステップについて詳述する。
まず、準備した表示素子用封止剤を23℃の状態とした後、表示素子用封止剤の一部を採取し、インクジェット装置にセットする。たとえば封止剤をインクジェットカートリッジに導入し、このカートリッジをインクジェット装置にセットする。インクジェットカートリッジを加温し、封止剤の温度がたとえば35℃となるようにする。インクジェットカートリッジに導入した状態での保温時間には制限がないが、1分~24時間とすることが好ましい。
(a)吐出量:7ピコリットル
(b)SiN基板の温度および雰囲気温度:23℃
インクジェット塗布による着弾後、180秒経過後に、表示素子用封止剤の着弾滴の直径を測定する。直径は、たとえば、最大径と最小径の2値の平均値をとることができる。測定結果をD1とする。
準備した上記表示素子用封止剤のうち、9~11gを、容積19mLのガラス製容器に導入した後、容器蓋を締める。この表示素子用封止剤入り容器を5℃で7日間冷蔵する。容器蓋は、シールテープを介在させて機密に締める。容器内部の上方空間は大気のままとする。
冷蔵した上記表示素子用封止剤を、室温でインクジェットカートリッジに導入して23℃に保温する。保温前の表示素子用封止剤は、いったん23℃に戻すことが好ましい。インクジェットカートリッジに導入した状態での保温時間に制限はないが、1分~24時間分とすることが好ましい。
次いで、表示素子用封止剤を導入したインクジェットカートリッジをインクジェット装置にセットし、SiN基板に対してこの表示素子用封止剤を以下の条件にてインクジェット塗布する。
(a)吐出量:7ピコリットル
(b)SiN基板の温度および雰囲気温度:23℃
着弾後、180秒経過後に、表示素子用封止剤の着弾滴の直径を測定する。直径は、たとえば、最大径と最小径の2値の平均値をとることができる。測定結果をD2とする。
(iv)上記D1および上記D2から、滴径比R=D2/D1の値を算出する。
滴径比Rをこのような範囲とすることにより、レベリング剤を含有する封止剤において、高い水準の保存安定性を実現することができる。なお、レベリング剤を含有する従来の表示素子用封止剤においては、滴径比Rは2.6以上の値であることが一般的である。
上記した範囲の滴径比Rを示す封止剤を得るためには、製造プロセスにおいて、たとえば以下の点に留意することが必要である。封止剤を得るには、(A)カチオン重合性化合物、(B)カチオン重合開始剤、(C)レベリング剤および適宜溶剤や他の添加剤を混合する工程を経て作製する。この混合に先立ち、(A)カチオン重合性化合物および溶剤について、超音波を印加して加振するとともに、窒素バブリングを行い、溶存酸素を除去する操作を行うことが好ましい。また、混合を行った後にも、窒素バブリングを行い、溶存酸素を除去する操作を行うことが好ましい。上記した範囲の滴径比Rを実現するプロセスとして、たとえば、こうした操作を行うことが有効である。
(成分(A))
成分(A)はカチオン重合性化合物である。カチオン重合性化合物は、光または熱によりカチオン重合を起こし得る化合物であり、分子内に、エポキシ基、オキセタン環含有基、ビニルエーテル基およびエピスルフィド基から選択される1種又は2種以上の基を有する化合物である。
エポキシ化合物は、一分子中に1または2以上のエポキシ基を有する化合物であり、具体的には、モノエポキシ化合物、2官能エポキシ化合物、3官能以上のエポキシ化合物が挙げられる。
エポキシ化合物の例としては、たとえば、以下のEP1~EP3を挙げることができる。
EP1は、脂環式エポキシ化合物であって、エポキシシクロアルキル基またはエポキシシクロアルケニル基を分子内に少なくとも1個有する化合物、または、少なくとも1個のエポキシ基が脂環に単結合で結合した基を分子内に少なくとも1個有する化合物である。
EP2は、ビスフェノールA型エポキシ、ビスフェノールF型エポキシ、ビスフェノールS型エポキシ、2,2'-ジアリルビスフェノールA型エポキシ、水添ビスフェノール型エポキシ、プロピレンオキシド付加ビスフェノールA型エポキシ等のビスフェノール型エポキシ化合物である。
EP3は上記EP1、EP2以外のエポキシ化合物であって、レゾルシノール型エポキシ、ビフェニル型エポキシ、スルフィド型エポキシ、ジフェニルエーテル型エポキシ、ジシクロペンタジエン型エポキシ、ナフタレン型エポキシ、フェノールノボラック型エポキシ、オルトクレゾールノボラック型エポキシ、ジシクロペンタジエンノボラック型エポキシ、ビフェニルノボラック型エポキシ、ナフタレンフェノールノボラック型エポキシ、グリシジルアミン型エポキシ、アルキルポリオール型エポキシ、ゴム変性型エポキシ、グリシジルエステル化合物等が挙げられる。
封止材料の耐候性を向上する観点から、エポキシ化合物は、好ましくは脂環式エポキシ化合物(上記EP1)を含む。
シクロアルケンオキサイド構造を有する脂環式エポキシ化合物として、たとえば、下記一般式(1)で表される化合物が挙げられる。
2価の炭化水素基として、たとえば、炭素数が1~18のアルキレン基や2価の脂環式炭化水素基等が挙げられる。
Xは、硬化性を向上する観点から、好ましくは単結合または酸素原子を有する連結基であり、より好ましくは単結合である。
以下、一般式(1)で表される脂環式エポキシ化合物の具体例を示す。
封止材料の硬化性を向上する観点から、エポキシ樹脂は、好ましくは脂環式エポキシ化合物および脂肪族エポキシ化合物を含む。
オキセタン化合物は、一分子中に1または2以上のオキセタニル基を有する化合物であり、具体的には、モノオキセタン化合物、2官能オキセタン化合物、3官能以上のオキセタン化合物が挙げられる。
封止剤の硬化物の硬化性を向上する観点から、オキセタン化合物は、以下の一般式(5)または(6)で表される2官能オキセタン化合物とすることも好ましい。
2価の有機残基の例には、アルキレン基、ポリオキシアルキレン基、フェニレン基、キシリレン基、下記式で示される構造が含まれる。
R4は、炭素原子数1~6のアルキレン基またはアリーレン基である。アルキレン基の例には、メチレン基、エチレン基、プロピレン基、ブチレン基、シクロヘキシレン基などの炭素原子数1~15のアルキレン基が含まれる。ポリオキシアルキレン基は、炭素原子数が4~30、好ましくは4~8のポリオキシアルキレン基であることが好ましく、その例には、ポリオキシエチレン基、ポリオキシプロピレン基が含まれる。
封止剤の硬化物の硬化性を向上する観点から、オキセタン化合物は、以下の一般式(4)で表される化合物であることも好ましい。
成分(B)は、カチオン重合開始剤である。カチオン重合開始剤の具体例として、光ラジカル開始剤および熱重合開始剤からなる群から選択される1種以上が挙げられる。低温で安定的に硬化物を形成する観点から、成分(B)は、紫外線等の光が照射されることでラジカルまたはイオンを生成する光カチオン重合開始剤(UVラジカル開始剤、UVカチオン開始剤)を含むことが好ましい。
光カチオン重合開始剤は、光照射等の光によってカチオン種を発生し、成分(A)の重合を開始させることが可能な化合物であればよい。
[R12 aR13 bR14 cR15 dW]v+[MXv+u]u- (7)
成分(C)はレベリング剤である。レベリング剤は、インクジェットにより塗布された封止剤を被塗布対象の表面に濡れ広がりやすくするための添加剤である。レベリング剤は、封止剤の流動性および消泡性を良好にするとともに、形成される封止剤塗膜面の平滑性を改善する役割を果たす。レベリング剤としては、フッ素系、アクリル系、シロキサン系のポリマーを挙げることができる。このうち、表面改質作用が小さいという点から、成分(C)は、好ましくはシリコーン系ポリマーおよびアクリレート系(アクリル系)ポリマーがからなる群から選択される1種以上である。
ビッグケミー・ジャパン社製のBYK-310、BYK-310N、BYK-323、BYK-340、BYK-350;
共栄社化学社製のポリフローKL-100、ポリフローKL-700、ポリフローKL-850、ポリフローNo.90;
DIC社製のF-552、F-553、F-554、F-556、F-557、F-559;
大阪有機化学社製のビスコート13Fなどが挙げられる。
ここで、レベリング剤を構成するポリマーの重量平均分子量Mwは、ゲルパーミエーションクロマトグラフィー(Gel Permeation Chromatography:GPC)により、ポリスチレン標準物質に基づき測定される。
(成分(D))
成分(D)は、ベンゾトリアゾール化合物、トリアジン化合物、モノフェノール化合物、ビスフェノール化合物、トリスフェノール化合物、ホスファイト化合物およびオキサホスファフェナントレンオキサイド化合物からなる群から選択される1種または2種以上の化合物である。封止剤が成分(D)をさらに含むことにより、封止材料の耐候性をよりいっそう優れたものとすることができる。
トリスフェノール化合物の具体例として、1,1,3-トリス(2-メチル-4-ヒドロキシ-5-t-ブチルフェニル)ブタンが挙げられる。
本実施形態において、封止剤は、本発明の効果を損なわない範囲で、上述した以外の他の成分をさらに含んでいてもよい。他の成分の例には、粘着付与剤、充填剤、硬化促進剤、可塑剤、界面活性剤、熱安定剤、難燃剤、帯電防止剤、消泡剤、シランカップリング剤および紫外線吸収剤等が含まれる。
光増感剤は、UV-LED等の波長選択的な光源に対応する観点から、好ましくは波長350nm~450nmの光によって励起状態となる化合物である。このような増感剤の具体例として、ピレン、ペリレン、トリフェニレン、アントラセン等の多核芳香族類;フルオレッセイン、エオシン、エリスロシン、ローダミンB、ローズベンガル等のキサンテン類;キサントン、チオキサントン、ジメチルチオキサントン、ジエチルチオキサントン等のキサントン類;チアカルボシアニン、オキサカルボシアニン等のシアニン類;メロシアニン、カルボメロシアニン等のメロシアニン類;ローダシアニン類;オキソノール類;チオニン、メチレンブルー、トルイジンブルー等のチアジン類;アクリジンオレンジ、クロロフラビン、アクリフラビン等のアクリジン類;アクリドン、10-ブチル-2-クロロアクリドン等のアクリドン類;アントラキノン類;、スクアリウム類;スチリル類;ベーススチリル類;7-ジエチルアミノ4-メチルクマリン等のクマリン類が挙げられる。これらの中でも、光増感剤は、封止材料の硬化性向上の観点から、好ましくは多環芳香族類、アクリドン類、クマリン類またはベーススチリル類であり、より好ましくはアントラセン化合物である。
カップリング剤として、たとえばシランカップリング剤が挙げられる。シランカップリングは、封止材料と被封止材料との密着性を向上する観点から、好ましくは成分(A)中の重合性官能基と共通の官能基を有するシランカップリング剤、または、成分(A)中の重合性官能基と反応可能な官能基を有するシランカップリング剤である。たとえば、成分(A)がエポキシ化合物を含むとき、カップリング剤が、エポキシ基を有するシランカップリング剤およびエポキシ基と反応(たとえば、付加反応)する官能基を有するシランカップリング剤からなる群から選択される1種または2種以上を含むことが好ましい。
なお、カップリング剤の分子量は、封止材料と被封止材料との密着性を向上する観点から、好ましくは80~800である。
封止剤の硬化物のガラス転移温度(Tg)は、封止材料の耐熱性向上の観点から、40℃以上であり、好ましくは50℃以上、より好ましくは60℃以上である。
また、屈曲性向上の観点から、封止剤の硬化物のTgは、200℃未満であり、好ましくは190℃以下、より好ましくは180℃以下である。
ここで、ガラス転移温度(Tg)は以下の手順で測定される。
得られた硬化物をカッターで幅10mm×長さ40mmの大きさに切りだす。
また、インクジェット吐出性向上の観点から、上記封止剤の粘度は、好ましくは80mPa・s以下であり、より好ましくは50mPa・s以下、さらに好ましくは30mPa・s以下である。
ここで、TI値は、E型粘度計を用いて25℃にて回転数5rpmおよび50rpmにおける粘度を測定し、下記式により求められる。
TI値=(回転数5rpmのときの粘度)÷(回転数50rpmのときの粘度)
また、封止剤の硬化物の誘電率は、たとえば1.0以上とすることができる。
封止剤の製造方法は限定されず、たとえば、成分(A)~(C)、および、適宜その他の成分、たとえば必要に応じて添加する各種添加剤を混合することを含む。各成分を混合する方法として、たとえば、遊星式撹拌装置、ホモディスパー、万能ミキサー、バンバリーミキサー、ニーダー、2本ロール、3本ロール、押出機等の公知の各種混練機を単独または併用して、常温下または加熱下で、常圧下、減圧下、加圧下または不活性ガス気流下等の条件下で均一に混練する方法が挙げられる。
封止材料は、たとえば本実施形態における封止剤を硬化してなる硬化物であり、さらに具体的には封止剤の光硬化物である。
以下、有機EL表示装置を例に、表示装置の構成例を挙げる。
本実施形態において、有機EL表示装置は、封止剤の硬化物に構成された層を有する。
図1は、本実施形態における有機EL表示装置の構成例を示す断面図である。図1に示した表示装置100は、有機EL表示装置であって、基板(基材層50)と、基材層50上に配置された有機EL素子(発光素子10)と、発光素子10を被覆する封止層22(オーバーコート層22またはバリア性層22であってもよい)と、を含む。そして、たとえば封止層22が、本実施形態における封止剤の硬化物により構成されている。
有機EL素子を、本実施形態の封止剤を硬化させて得られる樹脂層で保護することにより、有機EL素子内への水分の浸入を充分に防止して有機EL素子の性能および耐久性を高く維持することができる。
有機EL表示装置は、トップエミッション構造であっても、ボトムエミッション構造であってもよい。
有機EL素子は、基板上に配置され、本実施形態における封止剤を硬化させて得られる樹脂層により保護される前に、上記有機EL素子を含む領域を覆うように予め無機材料膜で被覆されていることが好ましい。
樹脂層の厚さは限定されないが、封止性能とフレキシブル性能を向上させる観点から、たとえば0.1~50μmであり、好ましくは1~20μmである。
はじめに、以下の例において用いた材料を示す。
((A)カチオン重合性化合物)
重合性化合物1:脂環式エポキシ化合物(4,4'-ビス(1,2-エポキシシクロヘキサン))、CEL8010、ダイセル社製(下記式の化合物(推定))
重合性化合物3:エポキシ化合物(グリシジルエーテル化合物)、1,6-ヘキサンジオールジグリシジルエーテル、エポゴーセーHD(D)、四日市合成社製
重合開始剤1:光カチオン開始剤、CPI-210S、サンアプロ社製
レベリング剤1:ポリエステル変性ポリジメチルシロキサン、BYK-310N(ビックケミー社製)
レベリング剤2:アラルキル変性ポリメチルアルキルシロキサン、BYK-323(ビックケミー社製)
レベリング剤3:反応性フッ素レベリング剤、ビスコート13F(大阪有機化学社製)
レベリング剤4:アクリル系共重合物、BYK-350(ビックケミー社製)
レベリング剤5:アクリル系共重合物、ポリフローNo.90(共栄社製)
レベリング剤6:シリコーン含有ポリマー、ポリフローKL-700(共栄社製)
レベリング剤7:含フッ素基・親油性基含有オリゴマー、F552(DIC社製)
(増感剤)
増感剤1:光カチオン増感剤(アントラセン化合物)、UVS-1331(川崎化成工業社製)
表1に示した配合組成となるように各成分を配合し、液状で溶剤を含まない組成物である封止剤を得た。具体的には、表1に記載の成分のうち、重合開始剤以外の成分を19mLガラス容器に入れて混合した。ガラス容器に超音波を10分間印加した後、0.1mL/分で窒素バブリングを行った。得られた混合物に、表1に示される量の重合開始剤を加えてさらに混合した。その後、粉状物が見えなくなるまで攪拌し、封止剤を得た。
滴径比Rは、以下(i)~(iv)の各ステップにより測定した。各例で得られた封止剤を製造して3時間以内に測定を開始した。
・ステップ(i)
各例で得られた封止剤を23℃の状態とした後、当該表示素子用封止剤の一部を採取し、インクジェットカートリッジ(DMC-11610、富士フイルムDimatix社製)に導入した。導入後、カートリッジの加熱により封止剤の温度を35℃とした。この温度で10分間保温した。
次いで、封止剤を導入したインクジェットカートリッジをインクジェット装置(DMP-2831、富士フイルムDimatix社製)にセットし、SiN基板に対して以下の条件にて封止剤をインクジェット塗布した。
(a)吐出量:7ピコリットル
(b)SiN基板の温度および雰囲気温度:23℃
インクジェット塗布による着弾後、180秒経過後に、封止剤の着弾滴の直径を測定した。直径の最大径と最小径の2値の平均値をとり、測定結果をD1とした。
前記(i)の工程で23℃の状態とした前記表示素子用封止剤9~11gを、容積19mLのガラス製容器に導入した後、容器蓋をシールテープを介在させて機密に締め、5℃で7日間冷蔵した。容器内部の上方空間は大気のままとした。
ステップ(ii)で冷蔵した封止剤を、いったん23℃に戻し、インクジェットカートリッジに導入して35℃で10分間保温した。
次いで、封止剤を導入したインクジェットカートリッジをインクジェット装置にセットし、SiN基板に対して以下の条件にて封止剤をインクジェット塗布した。
(a)吐出量:7ピコリットル
(b)SiN基板の温度および雰囲気温度:23℃
着弾後、180秒経過後に、表示素子用封止剤の着弾滴の直径を測定した。直径の最大径と最小径の2値の平均値をとり、測定結果をD2とした。
・ステップ(iv)
(iv)上記D1および上記D2から、滴径比R=D2/D1の値を算出した。
各例で得られた硬化性組成物の粘度を、E型粘度計(LV DV-II+ Pro、BROOKFIELD社製)を用いて25℃、20rpmにて測定した。
チクソ性(TI値)は、粘度測定と同じ測定器を用い、25℃で回転数5rpmおよび50rpmにおける粘度を測定し、下記式により求めた。
TI値=(回転数5rpmのときの粘度)÷(回転数50rpmのときの粘度)
(インクジェット塗布特性)
滴径比Rの測定方法で示したステップ(i)およびステップ(iii)におけるインクジェット塗布特性として、インクジェット吐出性を評価した。インクジェット吐出装置としてDMP-2831、富士フイルムDimatix社製を用い、ヘッド温度35℃、印加電圧35Vでインクジェット塗布を行った。評価基準を以下に示す。
OK:インクジェットヘッドを35℃に加熱して、吐出した際にインクジェット装置から安定して塗布することができた。
NG:インクジェットヘッドを35℃に加熱して吐出した際にインクジェットの吐出時にミストが発生した、または不吐出となった。
(評価用試料の製造)
端部保持性の評価用試料については、以下の手順で評価用試料として用いる積層体を形成した。すなわち、各例で得られた封止剤を、インクジェットカートリッジDMC-11610(富士フイルムDimatix社製)に導入した。そのインクジェットカートリッジをインクジェット装置DMP-2831(富士フイルムDimatix社製)にセットし、吐出状態の調整を行った後、無アルカリガラス上に硬化後の厚みが10μmとなるように、幅20mm×長さ20mmのサイズで塗布した。得られた塗膜を3分間、窒素パージしながら室温(25℃)で放置した後、波長395nmのUV-LEDで照度1000mW/cm2、積算光量1500mJ/cm2で硬化させた。
触針式プロファイラAlpha-Step D-600(アルバック社製)で得られた塗膜の塗布幅を縦横各3点測定し平均値を求め、以下の基準で評価した。
NG:塗布幅が20.50mm以上
OK:塗布幅が20.50mm未満
*表1中のDrop径の単位はμm(ミクロン)である。
21 バリア性層、タッチパネル層または表面保護層
22 封止層、オーバーコート層、またはバリア性層
23 平坦化層または封止層
24 バリア性層
100 表示装置
Claims (11)
- 以下の成分(A)~(C):
(A)カチオン重合性化合物、
(B)カチオン重合開始剤、
(C)レベリング剤
を含有する表示素子用封止剤であって、
以下の測定手順で測定される、当該表示素子用封止剤の滴径比Rが0.5以上1.1以下である、
表示素子用封止剤。
[測定手順]
(i)当該表示素子用封止剤を23℃の状態とした後、当該表示素子用封止剤の一部を採取し、SiN基板に対して当該表示素子用封止剤を以下の条件にてインクジェット塗布する。
(a)吐出量:7ピコリットル
(b)SiN基板の温度および雰囲気温度:23℃
着弾後、180秒経過後に、当該表示素子用封止剤の着弾滴の直径を測定する。測定結果をD1とする。
(ii)前記(i)の工程で23℃の状態とした前記表示素子用封止剤9~11gを、容積19mLのガラス製容器に導入した後、容器蓋を締める。当該表示素子用封止剤入り容器を5℃で7日間冷蔵する。
(iii)前記(ii)の工程で冷蔵した前記表示素子用封止剤を採取し、SiN基板に対して前記表示素子用封止剤を以下の条件にてインクジェット塗布する。
(a)吐出量:7ピコリットル
(b)SiN基板の温度および雰囲気温度:23℃
着弾後、180秒経過後に、当該表示素子用封止剤の着弾滴の直径を測定する。測定結果をD2とする。
(iv)前記D1および前記D2から、滴径比R=D2/D1の値を算出する。 - 請求項1に記載の表示素子用封止剤であって、
前記成分(A)が、エポキシ化合物およびオキセタン化合物の一方または両方を含む、表示素子用封止剤。 - 請求項1または2に記載の表示素子用封止剤であって、
前記成分(C)が、シリコーン系ポリマー及びアクリレート系ポリマーからなる群から選択される1種以上である、表示素子用封止剤。 - 請求項1~3のいずれか一項に記載の表示素子用封止剤であって、
前記成分(C)が、分子内にポリメチルシロキサン構造またはポリジメチルシロキサン構造を有するシリコーン系ポリマーである、表示素子用封止剤。 - 請求項1~4のいずれか一項に記載の表示素子用封止剤であって、
前記成分(C)が、(メタ)アクリル酸アルキルエステル由来の構造単位を含むポリマーである、表示素子用封止剤。 - 請求項1~5のいずれか一項に記載の表示素子用封止剤であって、
前記成分(C)の含有量は、前記成分(A)100質量%に対して、0.01質量%以上5質量%以下である、表示素子用封止剤。 - 請求項1~6のいずれか一項に記載の表示素子用封止剤であって、
前記成分(B)が、光によって重合を開始させるカチオン種を発生する光カチオン重合開始剤である、表示素子用封止剤。 - 請求項1~7のいずれか一項に記載の表示素子用封止剤であって、
E型粘度計で測定された25℃、20rpmにおける粘度が5mPa・s以上80mPa・s以下である、表示素子用封止剤。 - 請求項1~8のいずれか一項に記載の表示素子用封止剤であって、
有機EL表示素子の封止用である、表示素子用封止剤。 - 請求項1~9のいずれか一項に記載の表示素子用封止剤を硬化してなる硬化物。
- 基板と、
前記基板上に配置された表示素子と、
前記表示素子を被覆する封止層と、
を含み、
前記封止層が、請求項1~9のいずれか一項に記載の表示素子用封止剤の硬化物により構成されている、表示装置。
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WO2015068454A1 (ja) * | 2013-11-07 | 2015-05-14 | 積水化学工業株式会社 | 有機エレクトロルミネッセンス表示素子用封止剤 |
WO2016092816A1 (ja) * | 2014-12-09 | 2016-06-16 | 三井化学株式会社 | 有機el素子用の面封止材及びその硬化物 |
JP2019203105A (ja) * | 2018-05-25 | 2019-11-28 | 三井化学株式会社 | 表示素子用封止剤、有機el素子用封止剤およびその硬化物 |
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WO2016092816A1 (ja) * | 2014-12-09 | 2016-06-16 | 三井化学株式会社 | 有機el素子用の面封止材及びその硬化物 |
JP2019203105A (ja) * | 2018-05-25 | 2019-11-28 | 三井化学株式会社 | 表示素子用封止剤、有機el素子用封止剤およびその硬化物 |
WO2020067827A1 (ko) * | 2018-09-28 | 2020-04-02 | 주식회사 엘지화학 | 밀봉재 조성물 |
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