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TW202403000A - Energy ray-curable film-shaped transparent adhesive, device comprising same, and device manufacturing method - Google Patents

Energy ray-curable film-shaped transparent adhesive, device comprising same, and device manufacturing method Download PDF

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Publication number
TW202403000A
TW202403000A TW112124138A TW112124138A TW202403000A TW 202403000 A TW202403000 A TW 202403000A TW 112124138 A TW112124138 A TW 112124138A TW 112124138 A TW112124138 A TW 112124138A TW 202403000 A TW202403000 A TW 202403000A
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Taiwan
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film
adhesive
transparent adhesive
energy ray
mass
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TW112124138A
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Chinese (zh)
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坂井小雪
徳久憲司
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日商古河電氣工業股份有限公司
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Publication of TW202403000A publication Critical patent/TW202403000A/en

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    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09JADHESIVES; NON-MECHANICAL ASPECTS OF ADHESIVE PROCESSES IN GENERAL; ADHESIVE PROCESSES NOT PROVIDED FOR ELSEWHERE; USE OF MATERIALS AS ADHESIVES
    • C09J11/00Features of adhesives not provided for in group C09J9/00, e.g. additives
    • C09J11/02Non-macromolecular additives
    • C09J11/04Non-macromolecular additives inorganic
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09JADHESIVES; NON-MECHANICAL ASPECTS OF ADHESIVE PROCESSES IN GENERAL; ADHESIVE PROCESSES NOT PROVIDED FOR ELSEWHERE; USE OF MATERIALS AS ADHESIVES
    • C09J11/00Features of adhesives not provided for in group C09J9/00, e.g. additives
    • C09J11/02Non-macromolecular additives
    • C09J11/06Non-macromolecular additives organic
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09JADHESIVES; NON-MECHANICAL ASPECTS OF ADHESIVE PROCESSES IN GENERAL; ADHESIVE PROCESSES NOT PROVIDED FOR ELSEWHERE; USE OF MATERIALS AS ADHESIVES
    • C09J163/00Adhesives based on epoxy resins; Adhesives based on derivatives of epoxy resins
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09JADHESIVES; NON-MECHANICAL ASPECTS OF ADHESIVE PROCESSES IN GENERAL; ADHESIVE PROCESSES NOT PROVIDED FOR ELSEWHERE; USE OF MATERIALS AS ADHESIVES
    • C09J171/00Adhesives based on polyethers obtained by reactions forming an ether link in the main chain; Adhesives based on derivatives of such polymers
    • C09J171/08Polyethers derived from hydroxy compounds or from their metallic derivatives
    • C09J171/10Polyethers derived from hydroxy compounds or from their metallic derivatives from phenols
    • C09J171/12Polyphenylene oxides

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  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Inorganic Chemistry (AREA)
  • Adhesive Tapes (AREA)
  • Adhesives Or Adhesive Processes (AREA)
  • Epoxy Resins (AREA)

Abstract

Provided is an energy ray-curable film-shaped transparent adhesive comprising an epoxy resin, a phenoxy resin, and a photocationic polymerization initiator containing antimony at an anionic site. Also provided are a device comprising the film-shaped transparent adhesive, and a method for manufacturing the device using the film-shaped transparent adhesive.

Description

能量射線硬化型膜狀透明接著劑、含有其之裝置及該裝置之製造方法Energy ray curable film-like transparent adhesive, device containing the same, and method of manufacturing the device

本發明係關於一種能量射線硬化型膜狀透明接著劑、含有其之裝置及該裝置之製造方法。The present invention relates to an energy ray curable film-like transparent adhesive, a device containing the same, and a manufacturing method of the device.

於數位靜態相機或數位攝錄影機等攝影機器中,組入有CMOS影像感測器、CCD影像感測器等影像感測器(攝像元件)。影像感測器藉由光二極體對入射之光進行光電轉換而將其轉換為電訊號,經過訊號處理而形成數位影像。於光二極體之表面視需要配置彩色濾光片、微透鏡等,進而,於該積層體表面通常配置玻璃板等透明保護膜。此種透明保護膜係經由膜狀接著劑等而固定化。對用於影像感測器之透明保護膜之接著、固定化的接著劑要求充分使光穿透之透明性。 另一方面,於影像顯示裝置中,亦存在如下情形,即,於支持基材上配置功能性元件(有機電致發光(有機EL)元件、液晶面板、微發光二極體(微LED)、電晶體等半導體元件等)等,又,於功能性元件之表面配置功能層(保護層、阻氣層(密封層)、硬塗層等)等。存在對用於該等功能性元件及功能層之接著、固定化的接著劑亦要求充足之透明性之情形。 膜狀接著劑其本身已知有各種組成者,廣泛用於電子機器或其構件之製造等,並不限定於影像感測器或影像顯示裝置。例如,於半導體晶片之製程中,膜狀接著劑被用作晶粒黏著膜。 專利文獻1揭示有一種含有玻璃轉移溫度為110℃以上之苯氧基樹脂、多官能環氧樹脂、及光陽離子聚合起始劑之片狀接著劑,於其具體實施方式中,作為光陽離子聚合起始劑,使用4-(苯硫基)苯基二苯基鋶六氟磷酸鹽等。該片狀接著劑被認為於高溫條件下之形狀穩定性優異。 專利文獻2揭示有一種具有活性能量射線硬化性之接著劑,其將由接著劑之根據CIE1976L a b 表色系統所規定之a 值及b 值所算出之X值設為特定範圍,並將硬化前後根據上述表色系統所規定之色差ΔE a設為特定範圍。該接著劑含有顏色會因活性能量射線之照射而消失之染料及光起始劑,進而,含有(甲基)丙烯酸酯聚合物、交聯劑、活性能量射線硬化性成分。被認為藉由該接著劑,能夠容易地確認由活性能量射線之照射所引起之硬化。 專利文獻3揭示有一種有機電致發光元件密封劑,其含有雙酚型環氧樹脂100質量份作為光陽離子聚合性化合物,且相對於此含有特定之硼酸鋶鹽0.1~100質量份作為光陽離子聚合劑。該密封材料被認為表現出優異之光硬化性,適用於電致發光元件之密封。 [先前技術文獻] [專利文獻] Image sensors (image sensors) such as CMOS image sensors and CCD image sensors are incorporated into photographic equipment such as digital still cameras or digital video cameras. The image sensor uses a photodiode to photoelectrically convert the incident light into an electrical signal, and then processes the signal to form a digital image. If necessary, a color filter, a microlens, etc. are disposed on the surface of the photodiode, and a transparent protective film such as a glass plate is usually disposed on the surface of the laminated body. Such a transparent protective film is fixed via a film-like adhesive or the like. Adhesives used for bonding and fixing transparent protective films for image sensors require sufficient transparency to allow light to pass through them. On the other hand, in image display devices, there are also cases in which functional elements (organic electroluminescence (organic EL) elements, liquid crystal panels, micro-light-emitting diodes (micro-LEDs), etc.) are arranged on a supporting base material. Semiconductor elements such as transistors, etc.), and functional layers (protective layers, gas barrier layers (sealing layers), hard coats, etc.) are arranged on the surfaces of functional elements. In some cases, sufficient transparency is also required for the adhesive used for bonding and fixing these functional elements and functional layers. Film adhesives themselves are known to have various compositions and are widely used in the manufacture of electronic devices or their components, and are not limited to image sensors or image display devices. For example, in the manufacturing process of semiconductor wafers, film adhesives are used as die adhesion films. Patent Document 1 discloses a sheet adhesive containing a phenoxy resin with a glass transition temperature of 110° C. or higher, a multifunctional epoxy resin, and a photocationic polymerization initiator. In its specific embodiment, as a photocationic polymerization As the initiator, 4-(phenylthio)phenyldiphenylsonium hexafluorophosphate or the like is used. This sheet-shaped adhesive is said to have excellent shape stability under high temperature conditions. Patent Document 2 discloses an adhesive having active energy ray curability, in which the X value calculated from the a * value and b * value specified in the CIE1976L * a * b * color system of the adhesive is set to a specific range , and set the color difference ΔE * a specified by the above-mentioned color system before and after hardening to a specific range. The adhesive contains a dye whose color disappears due to irradiation of active energy rays and a photoinitiator, and further contains a (meth)acrylate polymer, a cross-linking agent, and an active energy ray curable component. It is thought that this adhesive can easily confirm hardening caused by irradiation of active energy rays. Patent Document 3 discloses an organic electroluminescent element sealing agent that contains 100 parts by mass of a bisphenol-type epoxy resin as a photocationically polymerizable compound and 0.1 to 100 parts by mass of a specific sulfonium borate salt as a photocation. Polymerizing agent. The sealing material is considered to exhibit excellent photohardening properties and is suitable for sealing electroluminescent components. [Prior art documents] [Patent documents]

[專利文獻1]國際公開第2020/196240號 [專利文獻2]日本特開2020-26491號 [專利文獻1]日本專利第4933751號 [Patent Document 1] International Publication No. 2020/196240 [Patent Document 2] Japanese Patent Application Publication No. 2020-26491 [Patent Document 1] Japanese Patent No. 4933751

[發明所欲解決之課題][Problem to be solved by the invention]

功能性元件中,耐熱性較低者亦較多,於包含此種低耐熱性之元件之裝置之製造中,為了避免元件之損傷,採用不經加熱處理而進行製造之方法。於此種裝置之製造中,作為接著劑,大多使用能夠於常溫至常溫附近之低溫範圍內發生硬化之能量射線硬化式之膜狀接著劑。然而,膜狀接著劑與液態接著劑相比分子流動性較低,故而有硬化成分之反應性於低溫範圍內較差之傾向。 為了使膜狀接著劑於低溫範圍內有效率地硬化,需要較液態接著劑增多能量射線之照射量。例如,專利文獻1於其具體實施方式中揭示:為了片狀接著劑之硬化,進行2000 mJ/cm 2之紫外線(UV)照射,並且,進而進行100℃之加熱。又,專利文獻2於其具體實施方式中揭示:藉由2000 mJ/cm 2之照射量,黏著劑層之硬化大致結束。又,專利文獻3於其具體實施方式中揭示:為了密封材料之硬化,進行2000 mJ/cm 2之UV照射及於80℃之熟化加熱。另一方面,若能量射線之照射量變多,則即使不加熱,亦會產生發熱現象作為伴隨硬化反應之副反應,就結果而言存在功能性元件暴露於高溫下之情形。於此情形時,容易產生由接著劑本身之接著力變差所引起之可靠性不良、或透明性下降之問題。因此,期望一種能夠藉由較少之能量射線照射量而發生硬化之高反應性且於高溫下接著力不易下降之膜狀透明接著劑。 又,考慮到某些裝置會於使用中被置於高溫環境下,或者某些裝置本身會由於自內部所產生之熱而變得高溫(例如,車載用裝置等),因此,從提高此種環境下之裝置之可靠性之觀點而言,亦要求一種於高溫下接著力不易下降之接著劑。 一般而言,接著劑中大多會添加填充材料以提高接著力。藉由添加填充材料,能夠提昇接著劑之接著可靠性。然而,填充材料之添加會使接著劑之透明性下降,因此,於添加填充材料之情形時,上述可靠性提昇與接著劑之透明性之間呈所謂之取捨(trade-off)關係。期望一種即使添加填充材料,亦能實現高接著可靠性之膜狀透明接著劑。 Many functional components have low heat resistance. When manufacturing devices containing components with such low heat resistance, in order to avoid damage to the components, a manufacturing method is adopted without heat treatment. In the manufacture of such devices, energy-beam-hardening film-like adhesives that can be cured in a low-temperature range from normal temperature to near normal temperature are often used as adhesives. However, film adhesives have lower molecular fluidity than liquid adhesives, so the reactivity of the hardened components tends to be poor in the low temperature range. In order to effectively harden the film adhesive in the low temperature range, it is necessary to increase the amount of energy ray irradiation compared to the liquid adhesive. For example, Patent Document 1 discloses in its specific embodiment that in order to harden the sheet-shaped adhesive, ultraviolet (UV) irradiation of 2000 mJ/cm 2 is performed, and further heating is performed at 100°C. Furthermore, Patent Document 2 discloses in its specific embodiment that the hardening of the adhesive layer is almost completed by an irradiation dose of 2000 mJ/cm 2 . Furthermore, Patent Document 3 discloses in its specific embodiment that in order to harden the sealing material, UV irradiation of 2000 mJ/cm 2 and aging heating at 80°C are performed. On the other hand, if the amount of energy ray irradiation increases, even without heating, a heat generation phenomenon will occur as a side reaction accompanying the hardening reaction, and as a result, functional elements may be exposed to high temperatures. In this case, it is easy to cause problems such as poor reliability or reduced transparency caused by the deterioration of the adhesive force of the adhesive itself. Therefore, there is a demand for a highly reactive film-like transparent adhesive that can be hardened with a small amount of energy ray irradiation and whose adhesive strength is not easily reduced at high temperatures. In addition, considering that some devices will be placed in a high-temperature environment during use, or some devices themselves will become high-temperature due to the heat generated from the inside (for example, vehicle-mounted devices, etc.), therefore, it is necessary to improve this From the perspective of reliability of devices under environmental conditions, an adhesive whose adhesive strength is not easily reduced at high temperatures is also required. Generally speaking, fillers are often added to adhesives to improve adhesion. By adding filler materials, the bonding reliability of the adhesive can be improved. However, the addition of filler material will reduce the transparency of the adhesive. Therefore, when a filler material is added, there is a so-called trade-off relationship between the above-mentioned reliability improvement and the transparency of the adhesive. There is a demand for a film-like transparent adhesive that can achieve high bonding reliability even when a filler is added.

本發明之課題在於提供一種能夠以較少之能量射線照射量進行硬化而發揮充足之接著力,硬化後之透明性優異,且於高溫下接著力不易下降之能量射線硬化型膜狀透明接著劑。又,本發明之課題在於提供一種含有上述能量射線硬化型膜狀透明接著劑之裝置、使用上述能量射線硬化型膜狀透明接著劑之裝置之製造方法。 [解決課題之技術手段] An object of the present invention is to provide an energy ray-curable film-like transparent adhesive that can be cured with a small amount of energy ray irradiation to exert sufficient adhesion, has excellent transparency after curing, and is not prone to decrease in adhesion at high temperatures. . Furthermore, an object of the present invention is to provide a device containing the above-mentioned energy ray curable film-like transparent adhesive and a method of manufacturing a device using the above-described energy ray curable film-like transparent adhesive. [Technical means to solve the problem]

本發明之上述課題係藉由下述手段解決。 〔1〕 一種能量射線硬化型膜狀透明接著劑,其含有:環氧樹脂、苯氧基樹脂、及於陰離子部位包含銻之光陽離子聚合起始劑。 〔2〕 如〔1〕所記載之能量射線硬化型膜狀透明接著劑,其中,上述苯氧基樹脂之玻璃轉移溫度為80~120℃。 〔3〕 如〔1〕或〔2〕所記載之能量射線硬化型膜狀透明接著劑,其中,上述能量射線硬化型膜狀透明接著劑之硬化物之玻璃轉移溫度為80℃以上。 〔4〕 如〔1〕至〔3〕中任一項所記載之能量射線硬化型膜狀透明接著劑,其中,上述能量射線硬化型膜狀透明接著劑之硬化物之平行光線穿透率為80%以上。 〔5〕 如〔1〕至〔4〕中任一項所記載之能量射線硬化型膜狀透明接著劑,其中,上述能量射線硬化型膜狀透明接著劑之硬化物於常溫時之儲存彈性模數為1.0 GPa以上。 〔6〕 如〔1〕至〔5〕中任一項所記載之能量射線硬化型膜狀透明接著劑,其中,上述環氧樹脂具有氫化雙酚結構或雙酚結構。 〔7〕 如〔1〕至〔6〕中任一項所記載之能量射線硬化型膜狀透明接著劑,其包含矽烷偶合劑。 〔8〕 如〔1〕至〔7〕中任一項所記載之能量射線硬化型膜狀透明接著劑,其包含硬化延遲劑。 〔9〕 如〔1〕至〔8〕中任一項所記載之能量射線硬化型膜狀透明接著劑,其包含填充材料。 〔10〕 一種裝置,其包含構成構件係使用〔1〕至〔9〕中任一項所記載之能量射線硬化型膜狀透明接著劑而被接著之構造。 〔11〕 一種裝置之製造方法,其包括使用〔1〕至〔9〕中任一項所記載之能量射線硬化型膜狀透明接著劑來接著構成構件。 The above-mentioned problems of the present invention are solved by the following means. 〔1〕 An energy ray curable film-like transparent adhesive contains: epoxy resin, phenoxy resin, and a photocationic polymerization initiator containing antimony in the anionic part. 〔2〕 The energy ray curable film-like transparent adhesive according to [1], wherein the phenoxy resin has a glass transition temperature of 80 to 120°C. 〔3〕 The energy ray curable film-like transparent adhesive according to [1] or [2], wherein the glass transition temperature of the cured product of the energy ray curable film-like transparent adhesive is 80° C. or higher. 〔4〕 The energy ray curable film-like transparent adhesive according to any one of [1] to [3], wherein the parallel light transmittance of the cured product of the energy ray curable film-like transparent adhesive is 80% or more. . 〔5〕 The energy ray curable film-like transparent adhesive according to any one of [1] to [4], wherein the storage elastic modulus of the cured product of the energy ray curable film-like transparent adhesive at normal temperature is 1.0. GPa or above. 〔6〕 The energy-ray curable film-like transparent adhesive according to any one of [1] to [5], wherein the epoxy resin has a hydrogenated bisphenol structure or a bisphenol structure. 〔7〕 The energy-beam curable film-like transparent adhesive according to any one of [1] to [6], which contains a silane coupling agent. 〔8〕 The energy-beam curable film-like transparent adhesive according to any one of [1] to [7], which contains a hardening retardant. 〔9〕 The energy-beam curable film-like transparent adhesive according to any one of [1] to [8], which contains a filler. 〔10〕 A device including a structure in which constituent members are bonded using the energy-beam curable film-like transparent adhesive according to any one of [1] to [9]. 〔11〕 A method of manufacturing a device, which includes bonding constituent members using the energy-beam curable film-like transparent adhesive according to any one of [1] to [9].

於本發明中,使用「~」表示之數值範圍意指包含記載於「~」前後之數值作為下限值及上限值之範圍。 [發明之效果] In the present invention, the numerical range represented by "~" means a range including the numerical values written before and after "~" as the lower limit and the upper limit. [Effects of the invention]

本發明之能量射線硬化型膜狀透明接著劑能夠以較少之能量射線照射量進行硬化而發揮充足之接著力,透明性較高,且於高溫下接著力不易下降。又,本發明之能量射線硬化型膜狀透明接著劑即使作為接著劑應用於耐熱性較低之元件,亦能抑制對元件之損傷,能夠進一步提高所獲得之裝置之接著可靠性。The energy ray curable film-like transparent adhesive of the present invention can be cured with a small amount of energy ray irradiation to exert sufficient adhesive force, has high transparency, and the adhesive force is not easily reduced at high temperatures. In addition, even if the energy-beam curable film-like transparent adhesive of the present invention is used as an adhesive for components with low heat resistance, it can suppress damage to the components and further improve the bonding reliability of the obtained device.

[能量射線硬化型膜狀透明接著劑] 本發明之能量射線硬化型膜狀透明接著劑(以下,亦簡稱為「本發明之膜狀接著劑」)含有環氧樹脂、苯氧基樹脂、及於陰離子部位包含銻之光陽離子聚合起始劑。本發明之膜狀接著劑處於硬化前之狀態,即,B階段之狀態,藉由能量射線照射發生硬化而發揮與被接著體之接著力。因此,本發明之膜狀接著劑為由硬化性組成物所構成之膜。本發明之膜狀接著劑可適用於裝置之構成構件之接著用途或密封用途。作為裝置,可列舉:數位靜態相機、數位攝錄影機、有機EL裝置、液晶面板裝置、微LED裝置、智慧型手機、電腦、電視等。本發明之膜狀接著劑尤其適合要求高透明性之光學製品之構成構件(例如,有機EL裝置、液晶面板、微LED裝置等之構成構件(例如透鏡、透明保護膜、玻璃基板、後述之功能性元件及功能層、該等之積層體等))等之接著用途或密封用途。 作為能量射線,可列舉紫外線(UV)之類的光線、或電子束之類的游離輻射。能量射線較佳為紫外線。 本發明之膜狀接著劑為不使用熱聚合起始劑者。 [Energy ray curable film-like transparent adhesive] The energy-beam curable film-like transparent adhesive of the present invention (hereinafter, also referred to as the "film-like adhesive of the present invention") contains an epoxy resin, a phenoxy resin, and a photocationic polymerization starter containing antimony in the anionic part. agent. The film-like adhesive of the present invention is in a state before hardening, that is, a B-stage state. It is hardened by energy ray irradiation and exerts adhesive force with the adherend. Therefore, the film-like adhesive agent of the present invention is a film composed of a curable composition. The film-like adhesive of the present invention can be suitably used for bonding or sealing of components of a device. Examples of devices include digital still cameras, digital video cameras, organic EL devices, liquid crystal panel devices, micro-LED devices, smartphones, computers, televisions, etc. The film-like adhesive of the present invention is particularly suitable for components of optical products requiring high transparency (e.g., components of organic EL devices, liquid crystal panels, micro-LED devices, etc.) (e.g., lenses, transparent protective films, glass substrates, and functions described below). It is used for bonding or sealing of sexual components, functional layers, laminates thereof, etc.). Examples of energy rays include light such as ultraviolet (UV) and ionizing radiation such as electron beams. Energy rays are preferably ultraviolet rays. The film adhesive of the present invention does not use a thermal polymerization initiator.

對本發明之膜狀接著劑所包含之各成分進行說明。Each component contained in the film adhesive agent of this invention is demonstrated.

(環氧樹脂) 本發明之膜狀接著劑含有至少一種環氧樹脂。 環氧樹脂只要為具有環氧基之樹脂即可,可廣泛使用能夠用於接著劑之環氧樹脂。環氧樹脂係環氧基與其他成分之反應性基反應或環氧基彼此開環聚合而於樹脂組成物中形成交聯結構者。 於本發明中,所謂環氧樹脂,係指環氧當量為3000 g/eq以下者。再者,於本發明中,所謂環氧當量,係指包含1克當量之環氧基之樹脂之克數(g/eq)。 環氧樹脂之環氧當量較佳為100~3000 g/eq,更佳為180~1500 g/eq。 於環氧樹脂具有脂環結構之情形時,環氧當量較佳為較大。例如,較佳為設為200 g/eq以上,更佳為200~3000 g/eq,進而較佳為200~1500 g/eq。 反之,於環氧樹脂不具有脂環結構之情形時,環氧當量可進一步減小。例如,較佳為設為未達200 g/eq,更佳為100~195 g/eq,進而較佳為120~195 g/eq,進而較佳為130~195 g/eq。 從提高本發明之膜狀接著劑之硬化物之柔軟性之觀點而言,亦可併用具有脂環結構且環氧當量較小之環氧樹脂(例如,環氧當量為500 g/eq以下之環氧樹脂,較佳為環氧當量為300 g/eq以下之環氧樹脂)、及具有脂環結構且環氧當量較大之環氧樹脂(例如,環氧當量為600~1300 g/eq之環氧樹脂,較佳為環氧當量為900~1300 g/eq之環氧樹脂)。 (epoxy resin) The film adhesive of the present invention contains at least one epoxy resin. The epoxy resin only needs to be a resin having an epoxy group, and epoxy resins that can be used as adhesives can be widely used. Epoxy resin is one in which epoxy groups react with reactive groups of other components or epoxy groups ring-opening polymerize with each other to form a cross-linked structure in the resin composition. In the present invention, the term epoxy resin refers to one having an epoxy equivalent of 3000 g/eq or less. Furthermore, in the present invention, the so-called epoxy equivalent refers to the number of grams (g/eq) of the resin containing 1 gram equivalent of epoxy groups. The epoxy equivalent of the epoxy resin is preferably 100-3000 g/eq, more preferably 180-1500 g/eq. When the epoxy resin has an alicyclic structure, the epoxy equivalent is preferably larger. For example, it is preferably 200 g/eq or more, more preferably 200 to 3000 g/eq, and still more preferably 200 to 1500 g/eq. On the contrary, when the epoxy resin does not have an alicyclic structure, the epoxy equivalent can be further reduced. For example, it is preferably less than 200 g/eq, more preferably 100 to 195 g/eq, still more preferably 120 to 195 g/eq, still more preferably 130 to 195 g/eq. From the viewpoint of improving the flexibility of the cured product of the film adhesive of the present invention, an epoxy resin having an alicyclic structure and a small epoxy equivalent (for example, an epoxy equivalent of 500 g/eq or less) may be used in combination. Epoxy resin, preferably an epoxy resin with an epoxy equivalent of less than 300 g/eq), and an epoxy resin with an alicyclic structure and a large epoxy equivalent (for example, an epoxy equivalent of 600 to 1300 g/eq The epoxy resin is preferably an epoxy resin with an epoxy equivalent of 900 to 1300 g/eq).

作為環氧樹脂之骨架,可列舉:酚系酚醛清漆型、鄰甲酚酚醛清漆型、甲酚酚醛清漆型、二環戊二烯型、聯苯型、茀雙酚型、三型、萘酚型、萘二酚型、三苯甲烷型、四苯基型、雙酚A型、雙酚F型、雙酚AD型、雙酚S型、三羥甲基甲烷型等。其中,從樹脂之結晶性較低,能夠獲得具有良好外觀之膜狀接著劑之觀點而言,較佳為三苯甲烷型、雙酚A型、甲酚酚醛清漆型、鄰甲酚酚醛清漆型。該等可單獨使用一種,亦可組合兩種以上使用。 上述環氧樹脂較佳為具有雙酚結構之環氧樹脂。 又,上述環氧樹脂較佳為具有脂環結構之環氧樹脂,進而較佳為氫化雙酚型環氧樹脂(具有氫化雙酚結構之環氧樹脂),進而較佳為氫化雙酚A型環氧樹脂。 從減少本發明之膜狀接著劑之硬化物之黃變,提高透明性之觀點而言,較佳為使用具有脂環結構之環氧樹脂,更佳為使用具有氫化雙酚結構之環氧樹脂。 As the skeleton of epoxy resin, there can be listed: phenolic novolak type, o-cresol novolak type, cresol novolac type, dicyclopentadiene type, biphenyl type, bisphenol type, tribisphenol type, Type, naphthol type, naphthodiphenol type, triphenylmethane type, tetraphenyl type, bisphenol A type, bisphenol F type, bisphenol AD type, bisphenol S type, trimethylolmethane type, etc. Among them, triphenylmethane type, bisphenol A type, cresol novolac type, and o-cresol novolak type are preferred from the viewpoint that the crystallinity of the resin is low and a film-like adhesive with good appearance can be obtained. . One type of these may be used alone, or two or more types may be used in combination. The above-mentioned epoxy resin is preferably an epoxy resin having a bisphenol structure. Moreover, the above-mentioned epoxy resin is preferably an epoxy resin having an alicyclic structure, further preferably a hydrogenated bisphenol type epoxy resin (an epoxy resin having a hydrogenated bisphenol structure), and further preferably a hydrogenated bisphenol A type. Epoxy resin. From the viewpoint of reducing yellowing of the cured product of the film adhesive of the present invention and improving transparency, it is preferable to use an epoxy resin having an alicyclic structure, and more preferably to use an epoxy resin having a hydrogenated bisphenol structure. .

環氧樹脂為液態環氧樹脂或固態環氧樹脂均可。從抑制黏膩,提高處理性之觀點而言,較佳為單獨使用固態環氧樹脂,或併用固態環氧樹脂及液態環氧樹脂。The epoxy resin can be either liquid epoxy resin or solid epoxy resin. From the viewpoint of suppressing stickiness and improving handleability, it is preferable to use solid epoxy resin alone or to use solid epoxy resin and liquid epoxy resin in combination.

環氧樹脂之重量平均分子量較佳為100~3000,更佳為200~1500。 重量平均分子量為利用GPC(Gel Permeation Chromatography,凝膠滲透層析法)分析所得之值。 The weight average molecular weight of the epoxy resin is preferably 100-3000, more preferably 200-1500. The weight average molecular weight is a value analyzed by GPC (Gel Permeation Chromatography).

本發明之膜狀接著劑之固形物成分(除了溶劑以外之成分)中,環氧樹脂之含量較佳為10~80質量%,更佳為25~80質量%,進而較佳為30~80質量%,進而較佳為40~75質量%,進而較佳為50~75質量%,最佳為60~70質量%。In the solid components (components other than the solvent) of the film adhesive of the present invention, the content of the epoxy resin is preferably 10 to 80 mass %, more preferably 25 to 80 mass %, and still more preferably 30 to 80 mass %. Mass % is more preferably 40 to 75 mass %, further preferably 50 to 75 mass %, and most preferably 60 to 70 mass %.

(苯氧基樹脂) 本發明之膜狀接著劑含有至少一種苯氧基樹脂。 苯氧基樹脂為於形成膜狀接著劑時抑制於常溫(23℃)時之膜觸黏性並賦予造膜性(膜形成性)之成分。 再者,於本發明中,所謂苯氧基樹脂,係指環氧當量(每1當量之環氧基所對應之樹脂之質量)超過3000 g/eq者。即,環氧當量為3000 g/eq以下之樹脂即使具有苯氧基樹脂之結構,亦分類為環氧樹脂。 (Phenoxy resin) The film adhesive of the present invention contains at least one phenoxy resin. Phenoxy resin is a component that suppresses the tackiness of the film at normal temperature (23°C) and imparts film-forming properties (film-forming properties) when forming a film-like adhesive. In addition, in the present invention, the so-called phenoxy resin refers to one whose epoxy equivalent (the mass of the resin corresponding to one equivalent of epoxy group) exceeds 3000 g/eq. That is, resins with an epoxy equivalent of 3000 g/eq or less are classified as epoxy resins even if they have the structure of a phenoxy resin.

苯氧基樹脂可依慣例獲得。例如,可藉由雙酚或聯苯酚化合物與表氯醇之類的表鹵醇之反應、液態環氧樹脂與雙酚或聯苯酚化合物之反應獲得。Phenoxy resins are conventionally available. For example, it can be obtained by the reaction of a bisphenol or biphenol compound and an epihalohydrin such as epichlorohydrin, or the reaction of a liquid epoxy resin and a bisphenol or biphenol compound.

上述苯氧基樹脂之玻璃轉移溫度(Tg)較佳為160℃以下,更佳為120℃以下,進而較佳為未達110℃,進而較佳為100℃以下,尤佳為90℃以下。苯氧基樹脂之Tg亦較佳為0℃以上,亦較佳為10℃以上,亦較佳為20℃以上,可設為30℃以上,可設為40℃以上,可設為50℃以上,可設為60℃以上,亦可設為70℃以上,亦較佳為80℃以上。苯氧基樹脂之Tg亦較佳為0~160℃,亦較佳為10~125℃,亦較佳為30~120℃,亦較佳為50~120℃,亦較佳為70~120℃,亦較佳為80~120℃,亦較佳為80℃以上且未達110℃,亦較佳為80~100℃。從提高本發明之膜狀接著劑之硬化物於常溫(23℃)時之儲存彈性模數之觀點而言,苯氧基樹脂之Tg較佳為80℃以上。從進一步提高本發明之膜狀接著劑之硬化物之透明性之觀點而言,苯氧基樹脂之Tg較佳為10~120℃,亦較佳為80~120℃,亦較佳為80℃以上且未達110℃,亦較佳為80~100℃。 上述苯氧基樹脂之Tg為動態黏彈性測定中之tanδ之峰頂溫度。具體而言,能夠以如下方式確定Tg。 將使苯氧基樹脂溶解而成之溶液塗佈於離型膜上,進行加熱乾燥,於離型膜上形成由苯氧基樹脂所構成之膜(聚合物膜)。自該聚合物膜剝離並去除離型膜,使用動態黏彈性測定裝置(商品名:Rheogel-E4000F,UBM公司製造),於測定溫度範圍為20~300℃、升溫速度為5℃/min、及頻率為1 Hz之條件下對該聚合物膜進行測定。將所獲得之tanδ峰頂溫度(tanδ顯示極大之溫度)設為Tg。 The glass transition temperature (Tg) of the phenoxy resin is preferably 160°C or lower, more preferably 120°C or lower, further preferably less than 110°C, further preferably 100°C or less, particularly preferably 90°C or less. The Tg of the phenoxy resin is preferably 0°C or higher, 10°C or higher, 20°C or higher, and may be 30°C or higher, 40°C or higher, or 50°C or higher. , may be set to 60°C or above, may be set to 70°C or above, and is preferably 80°C or above. The Tg of the phenoxy resin is preferably 0 to 160°C, 10 to 125°C, 30 to 120°C, 50 to 120°C, and 70 to 120°C. , is also preferably 80 to 120°C, is also preferably above 80°C and less than 110°C, and is also preferably 80 to 100°C. From the viewpoint of increasing the storage elastic modulus of the cured product of the film adhesive of the present invention at normal temperature (23°C), the Tg of the phenoxy resin is preferably 80°C or more. From the viewpoint of further improving the transparency of the cured product of the film adhesive of the present invention, the Tg of the phenoxy resin is preferably 10 to 120°C, more preferably 80 to 120°C, and further preferably 80°C. Above and below 110°C, preferably 80 to 100°C. The Tg of the above-mentioned phenoxy resin is the peak temperature of tan δ in dynamic viscoelasticity measurement. Specifically, Tg can be determined as follows. The solution in which the phenoxy resin is dissolved is applied to the release film and heated and dried to form a film (polymer film) composed of the phenoxy resin on the release film. The release film was peeled off and removed from the polymer film, and a dynamic viscoelasticity measuring device (trade name: Rheogel-E4000F, manufactured by UBM Company) was used to measure the temperature in the range of 20 to 300°C, the temperature rise rate of 5°C/min, and The polymer film was measured at a frequency of 1 Hz. Let the obtained tan δ peak top temperature (the temperature at which tan δ shows maximum) be Tg.

作為上述苯氧基樹脂,重量平均分子量通常為10000以上。上限值雖並無特別限制,但就實際而言為5000000以下。 上述苯氧基樹脂之重量平均分子量係藉由利用GPC〔凝膠滲透層析法(Gel Permeation Chromatography)〕所進行之聚苯乙烯換算而求出。 As the above-mentioned phenoxy resin, the weight average molecular weight is usually 10,000 or more. Although the upper limit is not particularly limited, it is practically 5,000,000 or less. The weight average molecular weight of the above-mentioned phenoxy resin is determined by polystyrene conversion using GPC (Gel Permeation Chromatography).

若著眼於苯氧基樹脂之骨架,則可於本發明中,良好地使用雙酚A型苯氧基樹脂、含有聯苯骨架及環己烷骨架之苯氧基樹脂、或雙酚F+1,6-己二醇二環氧丙基醚型苯氧基樹脂。If attention is paid to the skeleton of the phenoxy resin, in the present invention, bisphenol A type phenoxy resin, a phenoxy resin containing a biphenyl skeleton and a cyclohexane skeleton, or bisphenol F+1,6 can be preferably used. -Hexanediol diglycidyl ether type phenoxy resin.

本發明之膜狀接著劑中,上述苯氧基樹脂之含量例如相對於上述環氧樹脂100質量份可設為30~500質量份,亦可設為30~400質量份,亦可設為30~300質量份,亦可設為40~250質量份,亦可設為40~120質量份,亦較佳為設為40~80質量份。In the film adhesive agent of the present invention, the content of the phenoxy resin may be, for example, 30 to 500 parts by mass, 30 to 400 parts by mass, or 30 parts by mass relative to 100 parts by mass of the epoxy resin. ~300 parts by mass, may be 40-250 parts by mass, may be 40-120 parts by mass, and is preferably 40-80 parts by mass.

(光陽離子聚合起始劑) 本發明之膜狀接著劑含有於陰離子部位包含銻之光陽離子聚合起始劑(以下,亦簡稱為「光陽離子聚合起始劑」)。所謂「於陰離子部位包含銻」,係指於陰離子部位具有包含銻原子之陰離子。 光陽離子聚合起始劑較佳為具有上述陰離子部位及陽離子部位之鎓鹽,更佳為芳香族鎓鹽。 光陽離子聚合起始劑之陰離子部位只要為包含銻原子之陰離子即可,較佳為SbF 4 -及SbF 6 -,更佳為SbF 6 -。 光陽離子聚合起始劑之陽離子部位並無特別限定,較佳為鋶化合物離子、錪化合物離子、銨化合物離子、鏻化合物離子、吡啶鎓化合物離子等,更佳為鋶化合物離子、錪化合物離子。 陽離子部位只要為作為光陽離子聚合起始劑發揮功能之結構,則並無特別限制。從光吸收性之觀點而言,較佳為具有芳香族基。作為芳香族基,較佳為芳基,更佳為苯基。 光陽離子聚合起始劑若根據陽離子部位之種類進行分類,則亦可稱作鋶鹽系化合物、錪鹽系化合物、銨鹽系化合物、鏻鹽系化合物、吡啶鎓鹽系化合物。該等可單獨使用一種,亦可組合兩種以上使用。 光陽離子聚合起始劑較佳為UV陽離子聚合起始劑。 (Photocationic polymerization initiator) The film-like adhesive agent of the present invention contains a photocationic polymerization initiator containing antimony in the anionic site (hereinafter, also referred to as "photocationic polymerization initiator"). The term "containing antimony at the anion site" means having an anion containing an antimony atom at the anion site. The photocationic polymerization initiator is preferably an onium salt having the above-mentioned anionic moiety and cationic moiety, and is more preferably an aromatic onium salt. The anionic part of the photocationic polymerization initiator only needs to be an anion containing an antimony atom, preferably SbF 4 - and SbF 6 - , more preferably SbF 6 - . The cationic site of the photocationic polymerization initiator is not particularly limited, but is preferably a sulfonium compound ion, a iodonium compound ion, an ammonium compound ion, a phosphonium compound ion, a pyridinium compound ion, etc., and more preferably a sulfonium compound ion or a iodonium compound ion. The cationic moiety is not particularly limited as long as it has a structure that functions as a photocationic polymerization initiator. From the viewpoint of light absorption, it is preferred to have an aromatic group. As the aromatic group, an aryl group is preferred, and a phenyl group is more preferred. If the photocationic polymerization initiator is classified according to the type of cationic site, it may also be called a sulfonium salt-based compound, a iodonium salt-based compound, an ammonium salt-based compound, a phosphonium salt-based compound, or a pyridinium salt-based compound. One type of these may be used alone, or two or more types may be used in combination. The photocationic polymerization initiator is preferably a UV cationic polymerization initiator.

本發明之膜狀接著劑中,上述光陽離子聚合起始劑之含量相對於上述環氧樹脂100質量份可設為0.5~30質量份,亦可設為1~20質量份,亦可設為1~15質量份,亦較佳為設為2~10質量份,亦較佳為設為2~8質量份。In the film adhesive agent of the present invention, the content of the photocationic polymerization initiator may be 0.5 to 30 parts by mass, or 1 to 20 parts by mass, based on 100 parts by mass of the epoxy resin. 1 to 15 parts by mass, preferably 2 to 10 parts by mass, and preferably 2 to 8 parts by mass.

(添加劑) 本發明之膜狀接著劑亦可包含矽烷偶合劑作為添加劑。藉由使用矽烷偶合劑,能夠進一步提高與被接著體之密接性,就其結果而言,能夠提昇接著可靠性。 矽烷偶合劑係至少一個烷氧基、芳氧基之類的水解性基與矽原子鍵結而成者,除此以外,亦可鍵結有烷基、烯基、芳基。烷基較佳為經胺基、烷氧基、環氧基、(甲基)丙烯醯氧基取代者,更佳為經胺基(較佳為苯胺基)、烷氧基(較佳為環氧丙氧基)、(甲基)丙烯醯氧基取代者。 矽烷偶合劑例如可列舉:2-(3,4-環氧環己基)乙基三甲氧基矽烷、3-環氧丙氧基丙基三甲氧基矽烷、3-環氧丙氧基丙基三乙氧基矽烷、3-環氧丙氧基丙基甲基二甲氧基矽烷、3-環氧丙氧基丙基甲基二乙氧基矽烷、二甲基二甲氧基矽烷、二甲基二乙氧基矽烷、甲基三甲氧基矽烷、甲基三乙氧基矽烷、苯基三甲氧基矽烷、苯基三乙氧基矽烷、N-苯基-3-胺基丙基三甲氧基矽烷、3-甲基丙烯醯氧基丙基甲基二甲氧基矽烷、3-甲基丙烯醯氧基丙基三甲氧基矽烷、3-甲基丙烯醯氧基丙基甲基二乙氧基矽烷、3-甲基丙烯醯氧基丙基三乙氧基矽烷等。 (Additive) The film adhesive of the present invention may also contain a silane coupling agent as an additive. By using a silane coupling agent, the adhesion with the adherend can be further improved, and as a result, the adhesion reliability can be improved. The silane coupling agent is one in which at least one hydrolyzable group such as an alkoxy group or an aryloxy group is bonded to a silicon atom. In addition, an alkyl group, an alkenyl group, or an aryl group may be bonded thereto. The alkyl group is preferably substituted by an amine group, an alkoxy group, an epoxy group or a (meth)acryloxy group, and more preferably an amine group (preferably an aniline group) or an alkoxy group (preferably a cycloalkyl group). Oxypropoxy), (meth)acryloxy substituted ones. Examples of silane coupling agents include 2-(3,4-epoxycyclohexyl)ethyltrimethoxysilane, 3-glycidoxypropyltrimethoxysilane, and 3-glycidoxypropyltrimethoxysilane. Ethoxysilane, 3-glycidoxypropylmethyldimethoxysilane, 3-glycidoxypropylmethyldiethoxysilane, dimethyldimethoxysilane, dimethyl diethoxysilane, methyltrimethoxysilane, methyltriethoxysilane, phenyltrimethoxysilane, phenyltriethoxysilane, N-phenyl-3-aminopropyltrimethoxy Silane, 3-methacryloxypropylmethyldimethoxysilane, 3-methacryloxypropyltrimethoxysilane, 3-methacryloxypropylmethyldiethyl Oxysilane, 3-methacryloxypropyltriethoxysilane, etc.

於本發明之膜狀接著劑包含矽烷偶合劑之情形時,矽烷偶合劑之含量相對於上述環氧樹脂100質量份可設為0.1~20質量份,亦可設為0.5~10質量份,亦可設為1~7質量份,亦較佳為設為1~5質量份,亦較佳為設為1~3質量份。When the film adhesive of the present invention contains a silane coupling agent, the content of the silane coupling agent may be 0.1 to 20 parts by mass, or 0.5 to 10 parts by mass relative to 100 parts by mass of the epoxy resin. It can be 1 to 7 parts by mass, preferably 1 to 5 parts by mass, and preferably 1 to 3 parts by mass.

本發明之膜狀接著劑亦可包含硬化延遲劑作為添加劑。藉由使用硬化延遲劑,與被接著體之密接性提昇,接著力提昇。 作為硬化延遲劑,可使用接著劑中通常使用者。作為硬化延遲劑,可列舉聚醚化合物等。作為上述聚醚化合物,例如可列舉:聚乙二醇、聚丙二醇、聚四亞甲基二醇、杯芳烴(calixarene)、冠醚化合物等。其中,冠醚化合物較為合適。作為冠醚,可列舉:18-冠-6-醚、15-冠-5-醚等。 The film adhesive of the present invention may also contain a hardening retardant as an additive. By using a hardening retardant, the adhesion to the adherend is improved and the adhesion force is improved. As the hardening retardant, those commonly used in adhesives can be used. Examples of the hardening retardant include polyether compounds and the like. Examples of the polyether compound include polyethylene glycol, polypropylene glycol, polytetramethylene glycol, calixarene, and crown ether compounds. Among them, crown ether compounds are more suitable. Examples of crown ethers include 18-crown-6-ether, 15-crown-5-ether, and the like.

於本發明之膜狀接著劑包含硬化延遲劑之情形時,硬化延遲劑之含量相對於上述環氧樹脂100質量份可設為0.01~20質量份,亦可設為0.1~10質量份,亦可設為0.1~8質量份,亦較佳為設為0.1~5質量份,亦較佳為設為0.1~3質量份。When the film adhesive of the present invention contains a hardening retardant, the content of the hardening retardant may be 0.01 to 20 parts by mass, or 0.1 to 10 parts by mass relative to 100 parts by mass of the epoxy resin. It can be 0.1 to 8 parts by mass, preferably 0.1 to 5 parts by mass, and preferably 0.1 to 3 parts by mass.

本發明之膜狀接著劑亦可包含填充材料。即,本發明之膜狀接著劑可設為包含填充材料之形態,亦可設為不包含填充材料之形態。不過,本發明之膜狀接著劑即使不含有填充材料亦表現出合適之接著力。 填充材料較佳為無機填充材料。作為無機填充材料,例如可列舉:二氧化矽、黏土、石膏、碳酸鈣、硫酸鋇、氧化鋁(alumina)、氧化鈹、氧化鎂、碳化矽、氮化矽、氮化鋁、氮化硼等陶瓷類;鋁、銅、銀、金、鎳、鉻、鉛、錫、鋅、鈀、焊料等金屬或合金類;奈米碳管、石墨烯等碳類等各種無機粉末。 無機填充材料亦可經過表面處理或表面改質,作為此種表面處理或表面改質所使用之劑,可列舉:矽烷偶合劑、磷酸或磷酸化合物、界面活性劑等。 作為無機填充材料之形狀,可列舉薄片狀、針狀、絲狀、球狀、鱗片狀者,但從高填充化及流動性之觀點而言,較佳為球狀粒子。 The film adhesive of the present invention may also contain filler materials. That is, the film-like adhesive agent of the present invention may be in a form containing a filler, or may be in a form that does not contain a filler. However, the film-like adhesive of the present invention exhibits appropriate adhesive force even if it does not contain a filler material. The filler material is preferably an inorganic filler material. Examples of inorganic fillers include silica, clay, gypsum, calcium carbonate, barium sulfate, alumina, beryllium oxide, magnesium oxide, silicon carbide, silicon nitride, aluminum nitride, boron nitride, etc. Ceramics; aluminum, copper, silver, gold, nickel, chromium, lead, tin, zinc, palladium, solder and other metals or alloys; carbon nanotubes, graphene and other carbons and other inorganic powders. The inorganic filler material can also undergo surface treatment or surface modification. Examples of agents used for such surface treatment or surface modification include: silane coupling agent, phosphoric acid or phosphoric acid compound, surfactant, etc. Examples of the shape of the inorganic filler include flakes, needles, filaments, spheres, and scales. From the viewpoint of high filling and fluidity, spherical particles are preferred.

於本發明之膜狀接著劑包含填充材料之情形時,上述膜狀接著劑中之填充材料之含量於膜狀接著劑之固形物成分中,較佳為70質量%以下,更佳為60質量%以下,亦較佳為設為50質量%以下,亦較佳為設為40質量%以下。於本發明之膜狀接著劑包含填充材料之情形時,上述膜狀接著劑中之填充材料之含量可設為1質量%以上,亦可設為2質量%以上,亦較佳為設為4質量%以上。於本發明之膜狀接著劑包含填充材料之情形時,上述膜狀接著劑中之填充材料之含量於膜狀接著劑之固形物成分中,可設為71~70質量%,亦可設為2~60質量%,亦可設為4~50質量%,亦可設為4~40質量%,亦較佳為設為10~30質量%。When the film-like adhesive of the present invention contains a filler, the content of the filler in the film-like adhesive is preferably 70 mass % or less, more preferably 60 mass % in the solid content of the film-like adhesive. % or less, preferably 50 mass% or less, and preferably 40 mass% or less. When the film-like adhesive of the present invention contains a filler, the content of the filler in the film-like adhesive may be 1% by mass or more, may be 2% by mass or more, and is preferably 4%. Quality% or more. When the film-like adhesive of the present invention contains a filler, the content of the filler in the film-like adhesive may be 71 to 70% by mass in the solid content of the film-like adhesive, or may be 71% to 70% by mass. It can be 2-60 mass %, it can also be 4-50 mass %, it can also be 4-40 mass %, and it is also preferable that it is 10-30 mass %.

本發明之膜狀接著劑亦可進而含有有機溶劑、離子捕捉劑(ion-trapping agent)、硬化觸媒、黏度調整劑、抗氧化劑、阻燃劑、著色劑等。例如,可包含國際公開第2017/158994號之其他添加物。The film adhesive of the present invention may further contain organic solvents, ion-trapping agents, hardening catalysts, viscosity adjusters, antioxidants, flame retardants, colorants, etc. For example, other additives of International Publication No. 2017/158994 may be included.

環氧樹脂、苯氧基樹脂、及光陽離子聚合起始劑之各含量合計於本發明之膜狀接著劑中所占之比率例如可設為30質量%以上,較佳為40質量%以上,進而較佳為50質量%以上。該比率亦可為60質量%以上,亦可為70質量%以上,亦可為80質量%以上,亦可為90質量%以上。The total proportion of each content of the epoxy resin, phenoxy resin, and photocationic polymerization initiator in the film adhesive of the present invention can be, for example, 30 mass% or more, preferably 40 mass% or more. Furthermore, it is more preferable that it is 50 mass % or more. This ratio may be 60 mass% or more, 70 mass% or more, 80 mass% or more, or 90 mass% or more.

此處,於本發明中,所謂「膜」,係指厚度為200 μm以下之薄膜。形狀、大小等並無特別限制,可根據使用態樣相應地適當調整。 本發明之膜狀接著劑及使該膜狀接著劑硬化而成之硬化物之厚度均通常為1~100 μm,較佳為2~80 μm,亦較佳為5~50 μm。厚度可藉由接觸、線性計量器方式(桌上型接觸式厚度計量裝置)進行測定。 Here, in the present invention, the “film” refers to a thin film with a thickness of 200 μm or less. The shape, size, etc. are not particularly limited and can be appropriately adjusted according to the usage. The thickness of the film-like adhesive of the present invention and the hardened material obtained by hardening the film-like adhesive is usually 1 to 100 μm, preferably 2 to 80 μm, and still more preferably 5 to 50 μm. Thickness can be measured by contact or linear gauge (desktop contact thickness measuring device).

本發明之膜狀接著劑之硬化物之玻璃轉移溫度(Tg)較佳為64℃以上,更佳為80℃以上。上述膜狀接著劑之硬化物之Tg為動態黏彈性測定中之tanδ之峰頂溫度。具體而言,能夠以如下方式確定Tg。 使用貼合機於70℃積層膜狀接著劑直至厚度成為0.3 mm,使用水銀燈,於23℃且500 mJ/cm 2之照射條件下進行紫外線照射而發生硬化反應。將所獲得之硬化樣品切成5 mm寬,製成測定樣品。使用動態黏彈性測定裝置RSAIII(TA Instruments製造),於夾頭間距離為20 mm、頻率為10 Hz、測定溫度範圍為-40℃~250℃、及升溫速度為5℃/min之條件下對測定樣品進行測定。將所獲得之tanδ峰頂溫度(tanδ顯示極大之溫度)設為膜狀接著劑之硬化物之Tg。 此處,所謂本發明之膜狀接著劑之硬化物之Tg為X℃,於硬化物之Tg為2個以上之情形時,係指最低溫側之Tg為X℃。因此,例如,所謂本發明之膜狀接著劑之硬化物之Tg為80℃以上,於硬化物之Tg為2個以上之情形時,係指最低溫側之Tg為80℃以上。 本發明之膜狀接著劑之硬化物之Tg亦可較佳為設為80℃以上,更佳為設為90℃以上,進而較佳為設為100℃以上。 本發明之膜狀接著劑之硬化物之Tg較佳為80~150℃,更佳為80~140℃,進而較佳為90~130℃,進而較佳為100~130℃。Tg亦可設為110~125℃。 The glass transition temperature (Tg) of the hardened material of the film adhesive of the present invention is preferably 64°C or higher, more preferably 80°C or higher. The Tg of the hardened material of the film-like adhesive is the peak temperature of tan δ in dynamic viscoelasticity measurement. Specifically, Tg can be determined as follows. Use a laminating machine to laminate the film adhesive at 70°C until the thickness becomes 0.3 mm. Use a mercury lamp to irradiate the film with ultraviolet rays at 23°C and 500 mJ/ cm2 to cause a hardening reaction. The obtained hardened sample was cut into a width of 5 mm to prepare a measurement sample. Using the dynamic viscoelasticity measuring device RSAIII (manufactured by TA Instruments), the distance between the chucks is 20 mm, the frequency is 10 Hz, the measurement temperature range is -40°C ~ 250°C, and the temperature rise rate is 5°C/min. Measure the sample for measurement. The obtained tan δ peak temperature (the temperature at which tan δ shows maximum) was defined as the Tg of the cured product of the film adhesive. Here, the Tg of the cured product of the film adhesive of the present invention is X°C. When the Tg of the cured product is two or more, it means that the Tg on the lowest temperature side is X°C. Therefore, for example, when the Tg of the cured product of the film adhesive of the present invention is 80°C or more, when the Tg of the cured product is 2 or more, it means that the Tg on the lowest temperature side is 80°C or more. The Tg of the hardened material of the film adhesive of the present invention is preferably 80°C or higher, more preferably 90°C or higher, and still more preferably 100°C or higher. The Tg of the hardened material of the film adhesive of the present invention is preferably 80 to 150°C, more preferably 80 to 140°C, further preferably 90 to 130°C, further preferably 100 to 130°C. Tg can also be set to 110 to 125°C.

本發明之膜狀接著劑之硬化物之平行光線穿透率較佳為70%以上。於本發明中,上述平行光線穿透率係指於400 nm時之平行光線穿透率。膜狀接著劑一般而言容易因能量射線之照射而產生黃變現象,因此,能夠以所獲得之硬化物於上述波長下之平行光線穿透率為指標對透明性進行評價。即,能夠以於400 nm之平行光線穿透率來代表400 nm以外之可見光範圍內之平行光線穿透率。 本發明之膜狀接著劑之硬化物之平行光線穿透率較佳為80%以上,更佳為85%以上,進而較佳為90%以上。平行光線穿透率之上限就實際而言為100%。因此,本發明之膜狀接著劑之硬化物之平行光線穿透率較佳為80~100%。 平行光線穿透率可使用分光光度計進行測定。具體而言,上述硬化物之平行光線穿透率係以如下方式確定。使用貼合機於70℃積層膜狀接著劑直至厚度成為0.3 mm,於500 mJ/cm 2之條件下使其硬化。將所獲得之硬化樣品切成5 cm見方,製成測定樣品。使用分光光度計(島津製作所股份有限公司製造,紫外可見分光光度計UV-1800),確定測定樣品於波長400 nm之平行光線穿透率。 The parallel light transmittance of the cured product of the film-like adhesive of the present invention is preferably 70% or more. In the present invention, the above parallel light transmittance refers to the parallel light transmittance at 400 nm. Film-like adhesives are generally prone to yellowing due to irradiation with energy rays. Therefore, the transparency of the obtained cured product can be evaluated based on the parallel light transmittance at the above wavelength. That is, the parallel light transmittance at 400 nm can be used to represent the parallel light transmittance in the visible light range beyond 400 nm. The parallel light transmittance of the cured product of the film adhesive of the present invention is preferably 80% or more, more preferably 85% or more, and further preferably 90% or more. The practical upper limit of parallel light transmittance is 100%. Therefore, the parallel light transmittance of the cured product of the film-like adhesive of the present invention is preferably 80 to 100%. Parallel light transmittance can be measured using a spectrophotometer. Specifically, the parallel light transmittance of the hardened object is determined as follows. Use a laminating machine to laminate the film adhesive at 70°C until the thickness becomes 0.3 mm, and harden it at 500 mJ/ cm2 . The obtained hardened sample was cut into 5 cm squares to prepare measurement samples. Use a spectrophotometer (UV-1800 ultraviolet-visible spectrophotometer manufactured by Shimadzu Corporation) to determine the parallel light transmittance of the sample at a wavelength of 400 nm.

本發明之膜狀接著劑之硬化物於常溫(23℃)時之儲存彈性模數(以下,亦簡稱為「儲存彈性模數」)較佳為0.8 GPa以上。上述硬化物之儲存彈性模數更佳為1.0 GPa以上,進而較佳為1.2 GPa以上。上述硬化物之儲存彈性模數較佳為7.0 GPa以下,更佳為6.0 GPa以下,進而較佳為5.5 GPa以下,尤佳為5.0 GPa以下。上述硬化物之儲存彈性模數可設為0.8~7.0 GPa,亦可設為0.8~6.0 GPa,亦較佳為1.0~5.5 GPa,亦較佳為1.0~5.0 GPa,亦較佳為1.0~4.0 GPa,亦較佳為1.0~3.0 GPa。 上述硬化物之儲存彈性模數係以如下方式確定。使用貼合機於70℃積層膜狀接著劑直至厚度成為0.3 mm,於500 mJ/cm 2之條件下使其硬化。將所獲得之硬化樣品切成5 mm寬,製成測定樣品。使用動態黏彈性測定裝置RSAIII(TA Instruments製造),於夾頭間距離為20 mm且頻率為10 Hz之拉伸條件下,於升溫速度為5℃/min之條件下進行自-40℃至250℃之升溫,確定測定樣品於23℃時之儲存彈性模數。 The storage elastic modulus (hereinafter, also referred to as "storage elastic modulus") of the hardened material of the film-like adhesive of the present invention at normal temperature (23°C) is preferably 0.8 GPa or more. The storage elastic modulus of the hardened material is more preferably 1.0 GPa or more, and more preferably 1.2 GPa or more. The storage elastic modulus of the hardened material is preferably 7.0 GPa or less, more preferably 6.0 GPa or less, further preferably 5.5 GPa or less, particularly preferably 5.0 GPa or less. The storage elastic modulus of the above-mentioned hardened material can be set to 0.8 to 7.0 GPa, or 0.8 to 6.0 GPa, preferably 1.0 to 5.5 GPa, preferably 1.0 to 5.0 GPa, and preferably 1.0 to 4.0 GPa, preferably 1.0 to 3.0 GPa. The storage elastic modulus of the above-mentioned hardened material is determined as follows. Use a laminating machine to laminate the film adhesive at 70°C until the thickness becomes 0.3 mm, and harden it at 500 mJ/ cm2 . The obtained hardened sample was cut into a width of 5 mm to prepare a measurement sample. The dynamic viscoelasticity measuring device RSAIII (manufactured by TA Instruments) was used to measure the temperature from -40°C to 250°C under the tensile conditions of a distance between clamps of 20 mm and a frequency of 10 Hz, and a temperature rise rate of 5°C/min. ℃ temperature rise, determine the storage elastic modulus of the measured sample at 23 ℃.

本發明之膜狀接著劑之硬化物之儲存彈性模數可藉由環氧樹脂之化學結構(骨架、官能基之種類等)、分子量、環氧當量、及含量等,苯氧基樹脂之化學結構(骨架、官能基之種類等)、分子量、玻璃轉移溫度、及含量等,光陽離子聚合起始劑之化學結構(骨架、官能基之種類等)及含量等,接著劑中之填充材料及其他添加劑之種類或含量等進行控制。The storage elastic modulus of the cured product of the film adhesive of the present invention can be determined by the chemical structure (skeleton, type of functional groups, etc.), molecular weight, epoxy equivalent, and content of the epoxy resin, and the chemistry of the phenoxy resin. Structure (skeleton, types of functional groups, etc.), molecular weight, glass transition temperature, and content, etc., chemical structure (skeleton, types of functional groups, etc.) and content of the photocationic polymerization initiator, filler materials in the adhesive, and The type or content of other additives should be controlled.

本發明之膜狀接著劑可藉由製備將膜狀接著劑之各構成成分混合而成之組成物(清漆),將該組成物塗佈於離型膜或所需基材上,視需要進行乾燥,而於上述離型膜或基材上獲得。將接著劑層之各構成成分混合而成之組成物(清漆)通常含有有機溶劑。 作為塗佈方法,可適當採用公知方法,例如可列舉使用輥刀塗佈機、凹版塗佈機、模嘴塗佈機、反向塗佈機等之方法。 乾燥只要能夠實質上不發生硬化反應地去除有機溶劑並形成膜狀接著劑即可,例如可藉由於80~150℃之溫度保持1~20分鐘而進行。 The film adhesive of the present invention can be prepared by preparing a composition (varnish) by mixing each component of the film adhesive, and coating the composition on a release film or a required base material, as needed. Dry and obtain on the above-mentioned release film or substrate. The composition (varnish) in which the components of the adhesive layer are mixed usually contains an organic solvent. As the coating method, a known method can be suitably used, and examples thereof include methods using a roller blade coater, a gravure coater, a die coater, a reverse coater, and the like. Drying only needs to be able to remove the organic solvent and form a film-like adhesive without substantially causing a hardening reaction. For example, it can be performed by maintaining the temperature at 80 to 150° C. for 1 to 20 minutes.

從抑制膜狀接著劑之硬化反應(環氧樹脂之硬化反應)之觀點而言,本發明之膜狀接著劑較佳為於使用前(硬化反應前)遮光保管。遮光保管時之溫度條件並無特別限定,常溫或冷藏均可。From the viewpoint of suppressing the hardening reaction of the film-like adhesive (hardening reaction of the epoxy resin), the film-like adhesive of the present invention is preferably stored in a light-shielded state before use (before the hardening reaction). The temperature conditions during light-shielded storage are not particularly limited, and can be at room temperature or refrigerated.

[裝置之製造方法] 本發明之裝置之製造方法只要為使用本發明之膜狀接著劑來製造裝置之方法則並無特別限定。 本發明之裝置之製造方法之一實施方式包括使用本發明之膜狀接著劑來接著構成構件。因此,本發明之裝置包含構成構件係使用本發明之膜狀接著劑而被接著之構造。 作為應用本發明之膜狀接著劑之構成裝置之構成構件,並無特別限制,例如可列舉:上述功能性元件及功能層、該等之積層體等。本發明之裝置之製造方法之一實施方式包括藉由本發明之膜狀接著劑接著該等構件間,例如,包含功能性元件之積層體(功能性元件與配置於其單面或雙面之各種功能層之積層體)彼此之間、基材與包含功能性元件之積層體之間、第一基材與第二基材之間(亦可於第一及第二基材之任一方、或雙方之基材之與接著劑層相反側進而形成有包含功能性元件之積層體)等。因此,於本發明之裝置之製造方法之一實施方式中,包括如下步驟:於構成裝置之一構成構件之表面配置本發明之膜狀接著劑,隔著該膜狀接著劑配置構成裝置之另一構成構件,使該膜狀接著劑發生硬化反應。 [Device manufacturing method] The method of manufacturing the device of the present invention is not particularly limited as long as the device is manufactured using the film adhesive of the present invention. One embodiment of the device manufacturing method of the present invention includes using the film adhesive of the present invention to adhere the constituent components. Therefore, the device of the present invention includes a structure in which the constituent members are bonded using the film adhesive of the present invention. The constituent members of the device to which the film-like adhesive of the present invention is applied are not particularly limited, and examples thereof include the above-mentioned functional elements and functional layers, and laminates thereof. One embodiment of the manufacturing method of the device of the present invention includes using the film-like adhesive of the present invention to bond the components, for example, a laminate including functional elements (functional elements and various components arranged on one or both sides thereof). The laminate of functional layers) between each other, between the base material and the laminate including functional elements, between the first base material and the second base material (it can also be on either one of the first and second base materials, or A laminate including functional elements is formed on the side opposite to the adhesive layer of both base materials. Therefore, one embodiment of the method for manufacturing a device of the present invention includes the following steps: arranging the film-like adhesive of the present invention on the surface of one component of the device, and arranging the other component of the device via the film-like adhesive. A component that causes the film-like adhesive to undergo a hardening reaction.

於本發明之裝置之製造方法中,上述硬化反應之條件可考慮硬化劑之種類、功能性元件之耐熱性等而適當設定。例如可藉由使用水銀燈等照射100~1500 mJ/cm 2之紫外線而使接著劑層充分硬化。從減少照射量之觀點而言,照射量之上限較佳為700 mJ/cm 2以下,更佳為600 mJ/cm 2以下。 [實施例] In the device manufacturing method of the present invention, the conditions for the above-mentioned hardening reaction can be appropriately set taking into consideration the type of hardener, the heat resistance of the functional element, and the like. For example, the adhesive layer can be fully hardened by irradiating ultraviolet light of 100 to 1500 mJ/cm 2 using a mercury lamp or the like. From the viewpoint of reducing the irradiation dose, the upper limit of the irradiation dose is preferably 700 mJ/cm 2 or less, more preferably 600 mJ/cm 2 or less. [Example]

基於實施例及比較例對本發明更加具體地進行說明,但本發明並不限定於下述實施例之形態。又,所謂室溫,係指23℃,MEK為甲基乙基酮,PET為聚對苯二甲酸乙二酯,UV為紫外線。除非有特別說明,否則「%」、「份」為質量基準。The present invention will be described in more detail based on Examples and Comparative Examples, but the present invention is not limited to the forms of the following Examples. In addition, room temperature refers to 23°C, MEK refers to methyl ethyl ketone, PET refers to polyethylene terephthalate, and UV refers to ultraviolet rays. Unless otherwise stated, "%" and "parts" are based on mass.

<膜狀接著劑之製作> (實施例1) 於1000 ml之可分離式燒瓶中,於溫度110℃對作為環氧樹脂之ST-3000(商品名,氫化雙酚A型液態環氧樹脂,環氧當量:225 g/eq,Nippon Steel Chemical & Material股份有限公司製造)70質量份、作為苯氧基樹脂之YP-50(商品名,雙酚A型苯氧基樹脂,Tg:84℃,Nippon Steel Chemical & Material股份有限公司製造)30質量份及MEK30質量份進行2小時之加熱攪拌,獲得樹脂清漆。進而,將該樹脂清漆移至800 ml之行星式混合機中,添加WPI-116(商品名,UV陽離子聚合起始劑(錪鹽型,陰離子部位:SbF 6 -),FUJIFILM Wako Pure Chemical股份有限公司製造)2質量份作為聚合起始劑,於室溫進行1小時之攪拌混合後,進行真空消泡而獲得混合清漆。繼而,將所獲得之混合清漆塗佈於厚度為38 μm之經過表面離型處理之PET膜上,於130℃進行10分鐘之加熱乾燥,獲得縱300 mm、橫200 mm、且厚度為20 μm之附剝離膜之膜狀接著劑。 <Preparation of film adhesive> (Example 1) In a 1000 ml separable flask, ST-3000 (trade name, hydrogenated bisphenol A type liquid epoxy resin) as an epoxy resin was prepared at a temperature of 110°C. Epoxy equivalent: 225 g/eq, manufactured by Nippon Steel Chemical & Material Co., Ltd.) 70 parts by mass, YP-50 as a phenoxy resin (trade name, bisphenol A type phenoxy resin, Tg: 84°C, 30 parts by mass (manufactured by Nippon Steel Chemical & Material Co., Ltd.) and 30 parts by mass of MEK were heated and stirred for 2 hours to obtain a resin varnish. Furthermore, the resin varnish was transferred to an 800 ml planetary mixer, and WPI-116 (trade name, UV cationic polymerization initiator (iodide type, anionic part: SbF 6 - ), FUJIFILM Wako Pure Chemical Co., Ltd. (manufactured by the company) 2 parts by mass as a polymerization initiator, stir and mix at room temperature for 1 hour, and then perform vacuum defoaming to obtain a mixed varnish. Then, the obtained mixed varnish was coated on a 38 μm-thick PET film that had been surface-released and heated and dried at 130°C for 10 minutes to obtain a length of 300 mm, a width of 200 mm, and a thickness of 20 μm. Film-like adhesive with peel-off film.

(實施例2) 將苯氧基樹脂設為YX7200B35(商品名,含有聯苯骨架及環己烷骨架之苯氧基樹脂,Tg:150℃,不揮發分為35質量%,環氧當量:9000 g/eq,Mitsubishi Chemical股份有限公司製造)86質量份(其中,苯氧基樹脂(固形物成分)為30質量份),除此以外,以與實施例1同樣之方式獲得附離型膜之膜狀接著劑。 (Example 2) The phenoxy resin is YX7200B35 (trade name, phenoxy resin containing biphenyl skeleton and cyclohexane skeleton, Tg: 150°C, non-volatile content 35% by mass, epoxy equivalent: 9000 g/eq, Mitsubishi Chemical Co., Ltd.) 86 parts by mass (of which the phenoxy resin (solid content) was 30 parts by mass), a film-like adhesive for a release film was obtained in the same manner as in Example 1.

(實施例3) 將環氧樹脂設為828(商品名,雙酚A型環氧樹脂,環氧當量:185 g/eq,Nippon Steel Chemical & Material股份有限公司製造)70質量份,除此以外,以與實施例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Example 3) The epoxy resin was adjusted to 70 parts by mass of 828 (trade name, bisphenol A type epoxy resin, epoxy equivalent: 185 g/eq, manufactured by Nippon Steel Chemical & Material Co., Ltd.). 1 Obtain a film-like adhesive with a release film in the same manner.

(實施例4) 於混合清漆中添加KBM-402(商品名,矽烷偶合劑(3-環氧丙氧基丙基甲基二甲氧基矽烷),信越化學工業股份有限公司製造)1質量份作為添加劑,除此以外,以與實施例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Example 4) Add 1 part by mass of KBM-402 (trade name, silane coupling agent (3-glycidoxypropylmethyldimethoxysilane), manufactured by Shin-Etsu Chemical Industry Co., Ltd.) as an additive to the mixed varnish. Except for this, a film-like adhesive with a release film was obtained in the same manner as in Example 1.

(實施例5) 於混合清漆中添加18-冠-6-醚(商品名,硬化延遲劑,東京化成工業股份有限公司製造)0.1質量份作為添加劑,除此以外,以與實施例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Example 5) A release film was obtained in the same manner as in Example 1, except that 0.1 part by mass of 18-crown-6-ether (trade name, hardening retarder, manufactured by Tokyo Chemical Industry Co., Ltd.) was added to the mixed varnish as an additive. Film adhesive.

(實施例6) 將環氧樹脂設為ST-3000(商品名,氫化雙酚A型液態環氧樹脂,環氧當量:225 g/eq,Nippon Steel Chemical & Material股份有限公司製造)50質量份及YX8040(商品名,氫化雙酚A型固態環氧樹脂,環氧當量:1200 g/eq,Mitsubishi Chemical股份有限公司製造)20質量份,除此以外,以與實施例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Example 6) The epoxy resin was 50 parts by mass of ST-3000 (trade name, hydrogenated bisphenol A type liquid epoxy resin, epoxy equivalent: 225 g/eq, manufactured by Nippon Steel Chemical & Material Co., Ltd.) and YX8040 (trade name) , hydrogenated bisphenol A type solid epoxy resin, epoxy equivalent: 1200 g/eq, manufactured by Mitsubishi Chemical Co., Ltd.) 20 parts by mass, except that a film with a release film was obtained in the same manner as in Example 1. Adhesive.

(實施例7) 於混合清漆中添加YC100C-MLA(商品名,二氧化矽填料漿料,固形物成分:60%,Admatechs股份有限公司製造)33質量份(其中,二氧化矽填料為20質量份)作為填充材料,除此以外,以與實施例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Example 7) 33 parts by mass of YC100C-MLA (trade name, silica filler slurry, solid content: 60%, manufactured by Admatechs Co., Ltd.) (20 parts by mass of silica filler) was added to the mixed varnish as a filler material , Except for this, a film-like adhesive with a release film was obtained in the same manner as in Example 1.

(實施例8) 將環氧樹脂之摻合量設為50質量份,將苯氧基樹脂之摻合量設為50質量份,將聚合起始劑設為CPI-101A(商品名,UV陽離子聚合起始劑(鋶鹽型,陰離子部位:SbF 6 -),San-Apro股份有限公司製造)2質量份,除此以外,以與實施例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Example 8) The blending amount of the epoxy resin was 50 parts by mass, the blending amount of the phenoxy resin was 50 parts by mass, and the polymerization initiator was CPI-101A (trade name, UV cationic A film-like adhesive with a release film was obtained in the same manner as in Example 1, except for 2 parts by mass of a polymerization initiator (sulfonium salt type, anionic site: SbF 6 - ), manufactured by San-Apro Co., Ltd. .

(實施例9) 將聚合起始劑設為CPI-101A(商品名,UV陽離子聚合起始劑(鋶鹽型,陰離子部位:SbF 6 -),San-Apro股份有限公司製造)2質量份,除此以外,以與實施例4同樣之方式獲得附剝離膜之膜狀接著劑。 (Example 9) The polymerization initiator was 2 parts by mass of CPI-101A (trade name, UV cationic polymerization initiator (sulfonium salt type, anionic site: SbF 6 - ), manufactured by San-Apro Co., Ltd.), Except for this, a film-like adhesive with a release film was obtained in the same manner as in Example 4.

(實施例10) 將環氧樹脂之摻合量設為30質量份,將苯氧基樹脂之摻合量設為70質量份,除此以外,以與實施例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Example 10) A film-like adhesive with a release film was obtained in the same manner as in Example 1, except that the blending amount of the epoxy resin was 30 parts by mass and the blending amount of the phenoxy resin was 70 parts by mass. .

(實施例11) 將環氧樹脂之摻合量設為50質量份,將苯氧基樹脂設為YX7180(商品名,雙酚F+1,6-己二醇二環氧丙基醚型苯氧基樹脂,Tg:15℃,Mitsubishi Chemical股份有限公司製造)50質量份,除此以外,以與實施例1同樣之方式獲得附離型膜之膜狀接著劑。 (Example 11) The blending amount of the epoxy resin was set to 50 parts by mass, and the phenoxy resin was set to YX7180 (trade name, bisphenol F + 1,6-hexanediol dialpoxypropyl ether type phenoxy resin, Tg: 15 ℃, Mitsubishi Chemical Co., Ltd.) 50 parts by mass, in the same manner as in Example 1, except that a film-like adhesive with a release film was obtained.

(實施例12) 將苯氧基樹脂設為YX7180(商品名,雙酚F+1,6-己二醇二環氧丙基醚型苯氧基樹脂,Tg:15℃,Mitsubishi Chemical股份有限公司製造)30質量份,除此以外,以與實施例1同樣之方式獲得附離型膜之膜狀接著劑。 (Example 12) The phenoxy resin was 30 parts by mass of YX7180 (trade name, bisphenol F + 1,6-hexanediol diglycidyl ether type phenoxy resin, Tg: 15°C, manufactured by Mitsubishi Chemical Co., Ltd.), except Except for this, a film-like adhesive with a release film was obtained in the same manner as in Example 1.

(實施例13) 於混合清漆中添加YC100C-MLA(商品名,二氧化矽填料漿料,固形物成分:60%,Admatechs股份有限公司製造)67質量份(其中二氧化矽填料為40質量份)作為填充材料,除此以外,以與實施例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Example 13) 67 parts by mass of YC100C-MLA (trade name, silica filler slurry, solid content: 60%, manufactured by Admatechs Co., Ltd.) (including 40 parts by mass of silica filler) was added to the mixed varnish as a filling material. Except for this, a film-like adhesive with a release film was obtained in the same manner as in Example 1.

(比較例1) 將環氧樹脂之摻合量設為40質量份,將苯氧基樹脂YX7200B35(商品名,含有聯苯骨架及環己烷骨架之苯氧基樹脂,Tg:150℃,不揮發分為35質量%,環氧當量:9000 g/eq,Mitsubishi Chemical股份有限公司製造)之摻合量設為171質量份(其中苯氧基樹脂(固形物成分)為60質量份),將聚合起始劑設為CPI-100P(商品名,UV陽離子聚合起始劑(鋶鹽型,陰離子部位:PF 6 -),San-Apro股份有限公司製造)2質量份,除此以外,以與實施例2同樣之方式獲得附剝離膜之膜狀接著劑。 (Comparative Example 1) The blending amount of the epoxy resin was set to 40 parts by mass, and phenoxy resin YX7200B35 (trade name, phenoxy resin containing a biphenyl skeleton and a cyclohexane skeleton, Tg: 150°C, no The blending amount of volatile content: 35 mass%, epoxy equivalent: 9000 g/eq, manufactured by Mitsubishi Chemical Co., Ltd.) is 171 parts by mass (of which the phenoxy resin (solid content) is 60 parts by mass), and The polymerization initiator was set to 2 parts by mass of CPI-100P (trade name, UV cationic polymerization initiator (sulfonium salt type, anionic part: PF 6 - ), manufactured by San-Apro Co., Ltd.). In the same manner as Example 2, a film-like adhesive with a release film was obtained.

(比較例2) 將環氧樹脂之摻合量設為50質量份,將苯氧基樹脂YX7200B35(商品名,含有聯苯骨架及環己烷骨架之苯氧基樹脂,Tg:150℃,不揮發分為35質量%,環氧當量:9000 g/eq,Mitsubishi Chemical股份有限公司製造)之摻合量設為142質量份(其中苯氧基樹脂(固形物成分)為50質量份),將聚合起始劑設為CPI-200K(商品名,UV陽離子聚合起始劑(鋶鹽型,陰離子部位:PF 3(C 2F 5) 3 -),San-Apro股份有限公司製造)2質量份,除此以外,以與實施例2同樣之方式獲得附剝離膜之膜狀接著劑。 (Comparative Example 2) The blending amount of the epoxy resin was set to 50 parts by mass, and the phenoxy resin YX7200B35 (trade name, phenoxy resin containing a biphenyl skeleton and a cyclohexane skeleton, Tg: 150°C, not The blending amount of volatile content: 35 mass%, epoxy equivalent: 9000 g/eq, manufactured by Mitsubishi Chemical Co., Ltd.) is 142 parts by mass (of which the phenoxy resin (solid content) is 50 parts by mass), and The polymerization initiator was CPI-200K (trade name, UV cationic polymerization initiator (sulfonium salt type, anionic part: PF 3 (C 2 F 5 ) 3 - ), manufactured by San-Apro Co., Ltd.) 2 parts by mass , Except for this, a film-like adhesive with a release film was obtained in the same manner as in Example 2.

(比較例3) 以與比較例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Comparative example 3) A film-like adhesive with a release film was obtained in the same manner as in Comparative Example 1.

(比較例4) 將聚合起始劑設為CPI-100P(商品名,UV陽離子聚合起始劑(鋶鹽型,陰離子部位:PF 6 -),San-Apro股份有限公司製造)2質量份,除此以外,以與實施例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Comparative Example 4) The polymerization initiator was CPI-100P (trade name, UV cationic polymerization initiator (sulfonium salt type, anionic site: PF 6 - ), manufactured by San-Apro Co., Ltd.), 2 parts by mass, Except for this, a film-like adhesive with a release film was obtained in the same manner as in Example 1.

(比較例5) 將聚合起始劑設為CPI-200K(商品名,UV陽離子聚合起始劑(鋶鹽型,陰離子部位:PF 3(C 2F 5) 3 -),San-Apro股份有限公司製造)2質量份,除此以外,以與實施例1同樣之方式獲得附剝離膜之膜狀接著劑。 (Comparative Example 5) The polymerization initiator was CPI-200K (trade name, UV cationic polymerization initiator (sulfonium salt type, anionic site: PF 3 (C 2 F 5 ) 3 - ), San-Apro Co., Ltd. company) 2 parts by mass, a film-like adhesive with a release film was obtained in the same manner as in Example 1, except for this.

(比較例6) 使用SG-708-6(商品名,丙烯酸樹脂,Tg:5℃,Nagase chemteX股份有限公司製造)50質量份代替苯氧基樹脂,將聚合起始劑設為TPO(商品名,UV自由基聚合起始劑(2,4,6-三甲基苯甲醯基-二苯基-氧化膦),東京化成工業股份有限公司製造)2質量份,除此以外,以與比較例2同樣之方式獲得附剝離膜之膜狀接著劑。 (Comparative example 6) 50 parts by mass of SG-708-6 (trade name, acrylic resin, Tg: 5°C, manufactured by Nagase ChemteX Co., Ltd.) was used instead of the phenoxy resin, and the polymerization initiator was TPO (trade name, UV radical polymerization The same procedure as Comparative Example 2 was performed except that 2 parts by mass of the starting agent (2,4,6-trimethylbenzoyl-diphenyl-phosphine oxide), manufactured by Tokyo Chemical Industry Co., Ltd. A film-like adhesive with a release film is obtained.

(比較例7) 將聚合起始劑設為二苯甲酮(UV自由基聚合起始劑,東京化成工業股份有限公司製造)2質量份,除此以外,以與比較例6同樣之方式獲得附剝離膜之膜狀接著劑。 (Comparative example 7) A film with a release film was obtained in the same manner as in Comparative Example 6, except that the polymerization initiator was 2 parts by mass of benzophenone (UV radical polymerization initiator, manufactured by Tokyo Chemical Industry Co., Ltd.) Adhesive.

(比較例8) 將聚合起始劑設為WPI-116(商品名,UV陽離子聚合起始劑(錪鹽型,陰離子部位:SbF 6 -),FUJIFILM Wako Pure Chemical股份有限公司製造)2質量份,除此以外,以與比較例6同樣之方式獲得附剝離膜之膜狀接著劑。 (Comparative Example 8) The polymerization initiator was set to 2 parts by mass of WPI-116 (trade name, UV cationic polymerization initiator (ion salt type, anionic site: SbF 6 - ), manufactured by FUJIFILM Wako Pure Chemical Co., Ltd. , except that a film-like adhesive with a release film was obtained in the same manner as Comparative Example 6.

將各實施例及比較例之膜狀接著劑之組成示於表1。Table 1 shows the composition of the film adhesives of each Example and Comparative Example.

<硬化物(硬化樣品)之製作、對有無發熱之確認> 將剝離膜自各實施例及比較例中所獲得之附剝離膜之膜狀接著劑剝離,使用貼合機於70℃積層膜狀接著劑直至厚度成為0.3 mm而獲得積層樣品,於室溫(23℃)對該積層樣品以表1之「硬化樣品製作條件」之「UV照射量」欄所記載之UV照射量分別進行處理,而獲得用於後述之儲存彈性模數及平行光線穿透率之評價的硬化樣品(硬化物)。 此時,對UV照射前後之樣品表面溫度進行測定,亦對有無由UV照射所引起之發熱進行評價。表面溫度之測定係使用非接觸式表面溫度計(FT3700,日置電機股份有限公司製造)進行,UV照射後之表面溫度之測定係於UV照射後5秒以內進行。將UV照射前後之表面溫度差(UV照射後之表面溫度-UV照射前之表面溫度)記載於表1中。 <Preparation of hardened objects (hardened samples) and confirmation of the presence of heat> The peeling film was peeled off from the film-like adhesive with peeling film obtained in each of the Examples and Comparative Examples, and the film-like adhesive was laminated using a laminating machine at 70°C until the thickness became 0.3 mm to obtain a laminated sample. ℃) The laminated samples were treated with the UV irradiation amounts listed in the "UV irradiation amount" column of the "Harded Sample Production Conditions" in Table 1, and the storage elastic modulus and parallel light transmittance used for the following were obtained. Hardened samples (hardened materials) for evaluation. At this time, the surface temperature of the sample before and after UV irradiation was measured, and the presence or absence of heat generation caused by UV irradiation was also evaluated. The surface temperature was measured using a non-contact surface thermometer (FT3700, manufactured by Hioki Electric Co., Ltd.). The surface temperature after UV irradiation was measured within 5 seconds after UV irradiation. The surface temperature difference before and after UV irradiation (surface temperature after UV irradiation - surface temperature before UV irradiation) is recorded in Table 1.

<硬化物之儲存彈性模數及玻璃轉移溫度之測定> 作為膜狀接著劑之硬化狀態之指標,對膜狀接著劑之硬化物之儲存彈性模數及玻璃轉移溫度進行測定。 將上述所製作出之硬化樣品切成5 mm寬,製成測定樣品。 使用測定裝置RSAIII(TA Instruments製造),於夾頭間距離為20 mm且頻率為10 Hz之拉伸條件下,對在升溫速度為5℃/min之條件下進行自-40℃至250℃之升溫時之各測定樣品之黏彈性舉動進行測定,求出於23℃時之儲存彈性模數及Tg。Tg設為顯示tanδ極大值之溫度,於存在2個以上之極大值之情形時,將低溫側之顯示極大值之溫度設為Tg。將測定結果示於表1。 <Measurement of storage elastic modulus and glass transition temperature of hardened material> As indicators of the cured state of the film adhesive, the storage elastic modulus and glass transition temperature of the cured product of the film adhesive were measured. Cut the hardened sample produced above into a width of 5 mm to prepare a measurement sample. Using a measuring device RSAIII (manufactured by TA Instruments), under the tensile conditions of a distance between the chucks of 20 mm and a frequency of 10 Hz, the temperature rise rate was 5°C/min from -40°C to 250°C. The viscoelastic behavior of each sample was measured when the temperature was raised, and the storage elastic modulus and Tg at 23°C were obtained. Tg is the temperature showing the maximum value of tan δ. When there are two or more maximum values, the temperature showing the maximum value on the low temperature side is set to Tg. The measurement results are shown in Table 1.

<平行光線穿透率測定> 根據波長400 nm之平行光線穿透率對膜狀接著劑之硬化物之透明性進行評價。 將上述所製作出之硬化樣品切成5 cm見方,製成測定樣品。 使用分光光度計(島津製作所股份有限公司製造,紫外可見分光光度計UV-1800)對所獲得之各測定樣品之平行光線穿透率進行測定,確定波長400 nm之平行光線穿透率。 <Measurement of parallel light transmittance> The transparency of the cured product of the film adhesive is evaluated based on the transmittance of parallel light with a wavelength of 400 nm. Cut the hardened sample produced above into 5 cm squares to prepare a measurement sample. The parallel light transmittance of each obtained measurement sample was measured using a spectrophotometer (UV-1800 manufactured by Shimadzu Corporation) to determine the parallel light transmittance of a wavelength of 400 nm.

<接著可靠性> 以與經由膜狀接著劑之硬化物而被接著之被接著體(玻璃板及虛設晶片)之接著力(剪切強度)之變化率為指標,對膜狀接著劑之硬化之狀態及接著力進行評價。 1)試樣之製作 首先,使用手動貼合機(商品名:FM-114,TECHNOVISION公司製造),於70℃之溫度且0.3 MPa之壓力,將各實施例及比較例中所獲得之附剝離膜之膜狀接著劑(硬化前)熱壓接於虛設矽晶圓(尺寸為8英吋,厚度為350 μm)之一面。其後,將剝離膜自膜狀接著劑剝離後,使用上述手動貼合機,於室溫且0.3 MPa之壓力,將切割膜及切割框(商品名:DTF2-8-1H001,DISCO公司製造)壓接於膜狀接著劑之與上述虛設矽晶圓為相反側之面上。繼而,使用設置有雙軸切割刀(Z1:NBC-ZH2050(27HEDD),DISCO公司製造/Z2:NBC-ZH127F-SE(BC),DISCO公司製造)之切割裝置(商品名:DFD-6340,DISCO公司製造),以成為2 mm×2 mm之尺寸之方式,自虛設矽晶圓側,於膜狀接著劑之厚度方向上,切割(切斷)至達到膜狀接著劑之整個厚度之深度,於切割膜上獲得附接著劑之虛設晶片。 繼而,藉由黏晶機(商品名:DB-800,Hitachi High-Technologies公司製造)自切割膜拾取上述附接著劑之虛設晶片,於80℃、壓力為0.1 MPa(負荷為400 gf)、時間為1.0秒之條件下將上述附接著劑之虛設晶片之接著劑側與作為被接著體基板之玻璃板(厚度為700 μm,縱10 mm×橫10 mm)於玻璃板之中央貼合並熱壓接。繼而,藉由UV照射機,以特定之UV照射量(記載於表之「可靠性評價」之「UV照射量」欄)自玻璃板側進行UV照射,使接著劑硬化。以此方式獲得具有虛設晶片-接著劑之硬化物-玻璃板之試驗片。 2)剪切強度之測定 上述所獲得之試驗片之接著劑之硬化物與玻璃板之間的剪切強度係使用萬能型黏結強度試驗機(商品名:4000PXY系列,Nordson Advanced Technology公司製造)進行測定。試驗條件設為測定速度為100 μm/s且測定高度為740 μm之條件,對相對於試驗片水平地推出試驗片中之虛設晶片時之剪切強度進行測定。於兩種測定溫度(常溫(23℃)及高溫(100℃))進行上述剪切強度之測定,求出剪切強度之變化率,按照以下評價基準進行評價。剪切強度之測定係將經由膜狀接著劑之硬化物而被接著之被接著體於上述測定溫度分別儲存1分鐘後進行。將評價A以上設為合格。 再者,實施例1~13之各膜狀接著劑均為由UV照射引起硬化後即刻表現出足夠高之剪切強度者。 剪切強度之變化率={(於常溫時之剪切強度-於高溫時之剪切強度)/於常溫時之剪切強度}×100[%] -評價基準- AA:剪切強度之變化率未達5% A:剪切強度之變化率為5%以上且未達10% B:剪切強度之變化率為10%以上且未達40% C:剪切強度之變化率為40%以上 <Adhesion reliability> Using the change rate of the adhesion force (shear strength) of the adherend (glass plate and dummy wafer) that is adhered to the hardened material of the film-form adhesive as an index, the cured state and adhesion force of the film-form adhesive are evaluated. Make an evaluation. 1) Preparation of samples First, a manual laminating machine (trade name: FM-114, manufactured by TECHNOVISION) was used to laminate the film-like adhesive with release film obtained in each example and comparative example at a temperature of 70°C and a pressure of 0.3 MPa. (Before hardening) Thermo-compression bonding to one side of the dummy silicon wafer (size: 8 inches, thickness: 350 μm). Thereafter, after peeling off the release film from the film-like adhesive, use the above-mentioned manual laminating machine to assemble the cutting film and cutting frame (trade name: DTF2-8-1H001, manufactured by DISCO) at room temperature and a pressure of 0.3 MPa. Press-bond to the surface of the film-like adhesive opposite to the above-mentioned dummy silicon wafer. Next, a cutting device (trade name: DFD-6340, DISCO) equipped with a biaxial cutting knife (Z1: NBC-ZH2050 (27HEDD), manufactured by DISCO Corporation/Z2: NBC-ZH127F-SE (BC), manufactured by DISCO Corporation) is used. company), cut (cut) in the thickness direction of the film adhesive from the side of the dummy silicon wafer to a depth of 2 mm × 2 mm to reach the entire thickness of the film adhesive. A dummy wafer with adhesive attached is obtained on the dicing film. Then, use a die bonding machine (trade name: DB-800, manufactured by Hitachi High-Technologies Co., Ltd.) to pick up the dummy wafer with the above-mentioned adhesive from the cutting film, and place it at 80°C, a pressure of 0.1 MPa (a load of 400 gf), and a time Under the condition of 1.0 seconds, the adhesive side of the dummy chip with the above-mentioned adhesive and the glass plate as the substrate substrate (thickness 700 μm, length 10 mm × width 10 mm) are bonded to the center of the glass plate and hot pressed catch. Then, a UV irradiation machine is used to irradiate UV from the glass plate side with a specific UV irradiation amount (recorded in the "UV irradiation amount" column of "Reliability Evaluation" in the table) to harden the adhesive. In this way, a test piece having a dummy wafer, a hardened material of the adhesive, and a glass plate was obtained. 2) Determination of shear strength The shear strength between the hardened material of the adhesive and the glass plate of the test piece obtained above was measured using a universal bonding strength testing machine (trade name: 4000PXY series, manufactured by Nordson Advanced Technology). The test conditions were set to a measurement speed of 100 μm/s and a measurement height of 740 μm, and the shear strength when the dummy wafer in the test piece was pushed out horizontally with respect to the test piece was measured. The above-mentioned shear strength was measured at two measurement temperatures (normal temperature (23°C) and high temperature (100°C)), the change rate of the shear strength was determined, and the evaluation was carried out according to the following evaluation standards. The measurement of the shear strength was performed after each of the adherends adhered via the hardened product of the film-like adhesive was stored at the above-mentioned measurement temperature for 1 minute. An evaluation of A or above was considered acceptable. Furthermore, each of the film adhesives of Examples 1 to 13 showed sufficiently high shear strength immediately after curing by UV irradiation. The rate of change of shear strength = {(shear strength at normal temperature - shear strength at high temperature)/shear strength at normal temperature} × 100 [%] -Evaluation criteria- AA: The change rate of shear strength does not reach 5% A: The change rate of shear strength is more than 5% and less than 10% B: The change rate of shear strength is more than 10% and less than 40% C: The change rate of shear strength is more than 40%

[表1-1]          實施例 1 2 3 4 5 6 7 8 9 10 11 12 13 環氧樹脂 ST-3000(氫化雙酚A型液態環氧樹脂,225 g/eq) 70 70    70 70 50 70 50 70 30 50 70 70 YX8040(氫化雙酚A型固態環氧樹脂,1200 g/eq)                20                      828(雙酚A型液態環氧樹脂,185 g/eq)       70                               苯氧基樹脂 YP-50(苯氧基樹脂,Tg為84℃) 30    30 30 30 30 30 50 30 70       30 YX7200B35(苯氧基樹脂,Tg為150℃)    30                                  YX7180(苯氧基樹脂,Tg為15℃)                               50 30    丙烯酸樹脂 SG-708-6(丙烯酸樹脂,Tg為5℃)                                        聚合起始劑 WPI-116(陰離子部位:SbF 6 - 2 2 2 2 2 2 2       2 2 2 2 CPI-101A(陰離子部位:SbF 6 -                      2 2             CPI-100P(陰離子部位:PF 6 -                                        CPI-200K(陰離子部位:PF 3(C 2F 5) 3 -                                        TPO                                        二苯甲酮                                        添加劑 KBM-402(矽烷偶合劑)          1             1             18-冠-6-醚(硬化延遲劑)             0.1                         填充材料 YC100C-MLA(二氧化矽填料)                   20                40 硬化樣品製作條件 積層樣品厚度[mm] 300 300 300 300 300 300 300 300 300 300 300 300 300 UV照射量[mJ/cm 2] 500 500 500 500 500 500 500 500 500 500 500 500 500 UV照射前後之樣品之表面溫度差[℃] 0 0 0 0 0 0 0 0 0 0 0 0 0 儲存彈性模數評價 硬化物之Tg[℃] 120 125 130 118 120 110 123 103 115 100 64 90 130 硬化物之儲存彈性模數[GPa] 2.0 3.0 3.2 1.8 1.7 1.5 5.4 1.2 1.7 1.0 0.8 0.9 7.0 透明性評價 硬化物之平行光線穿透率@400 nm[%] 95 80 87 92 92 93 83 95 93 94 93 94 70 可靠性評價 UV照射量[mJ/cm 2] 500 500 500 500 500 500 500 500 500 500 500 500 500 可靠性評價結果 A A A AA AA A AA A A A A A AA [Table 1-1] Example 1 2 3 4 5 6 7 8 9 10 11 12 13 Epoxy resin ST-3000 (hydrogenated bisphenol A liquid epoxy resin, 225 g/eq) 70 70 70 70 50 70 50 70 30 50 70 70 YX8040 (hydrogenated bisphenol A solid epoxy resin, 1200 g/eq) 20 828 (bisphenol A liquid epoxy resin, 185 g/eq) 70 Phenoxy resin YP-50 (phenoxy resin, Tg is 84℃) 30 30 30 30 30 30 50 30 70 30 YX7200B35 (phenoxy resin, Tg is 150℃) 30 YX7180 (phenoxy resin, Tg is 15℃) 50 30 acrylic resin SG-708-6 (acrylic resin, Tg is 5℃) polymerization initiator WPI-116 (anionic part: SbF 6 - ) 2 2 2 2 2 2 2 2 2 2 2 CPI-101A (anionic part: SbF 6 - ) 2 2 CPI-100P (anionic part: PF 6 - ) CPI-200K (Anion part: PF 3 (C 2 F 5 ) 3 - ) TPO Benzophenone additives KBM-402 (silane coupling agent) 1 1 18-crown-6-ether (hardening retardant) 0.1 Filler YC100C-MLA (silica filler) 20 40 Hardened sample preparation conditions Thickness of laminated sample [mm] 300 300 300 300 300 300 300 300 300 300 300 300 300 UV irradiation dose [mJ/cm 2 ] 500 500 500 500 500 500 500 500 500 500 500 500 500 Surface temperature difference of the sample before and after UV irradiation [℃] 0 0 0 0 0 0 0 0 0 0 0 0 0 Storage elastic modulus evaluation Tg of hardened material [℃] 120 125 130 118 120 110 123 103 115 100 64 90 130 Storage elastic modulus of hardened material [GPa] 2.0 3.0 3.2 1.8 1.7 1.5 5.4 1.2 1.7 1.0 0.8 0.9 7.0 Transparency evaluation Parallel light transmittance of hardened material@400 nm[%] 95 80 87 92 92 93 83 95 93 94 93 94 70 Reliability evaluation UV irradiation dose [mJ/cm 2 ] 500 500 500 500 500 500 500 500 500 500 500 500 500 Reliability evaluation results A A A AA AA A AA A A A A A AA

[表1-2]          比較例 1 2 3 4 5 6 7 8 環氧樹脂 ST-3000(氫化雙酚A型液態環氧樹脂,225 g/eq) 40 50 40 70 70 50 50 50 YX8040(氫化雙酚A型固態環氧樹脂,1200 g/eq)                         828(雙酚A型液態環氧樹脂,185 g/eq)                         苯氧基樹脂 YP-50(苯氧基樹脂,Tg為84℃)          30 30          YX7200B35(苯氧基樹脂,Tg為150℃) 60 50 60                YX7180(苯氧基樹脂,Tg為15℃)                         丙烯酸樹脂 SG-708-6(丙烯酸樹脂,Tg為5℃)                50 50 50 聚合起始劑 WPI-116(陰離子部位:SbF 6 -                      2 CPI-101A(陰離子部位:SbF 6 -                         CPI-100P(陰離子部位:PF 6 - 2    2 2             CPI-200K(陰離子部位:PF 3(C 2F 5) 3 -    2       2          TPO                2       二苯甲酮                   2    添加劑 KBM-402(矽烷偶合劑)                         18-冠-6-醚(硬化延遲劑)                         填充材料 YC100C-MLA(二氧化矽填料)                         硬化樣品製作條件 積層樣品厚度[mm] 300 300 300 300 300 300 300 300 UV照射量[mJ/cm 2] 500 500 2000 500 500 500 500 500 UV照射前後之樣品之表面溫度差[℃] 0 0 45 0 0 0 0 0 儲存彈性模數評價 硬化物之Tg[℃] 65 62 130 57 56 5 5 5 硬化物之儲存彈性模數[GPa] 0.6 0.5 1.8 0.4 0.3 0.3 0.3 0.4 透明性評價 硬化物之平行光線穿透率@400 nm[%] 65 67 30 70 72 10 13 15 可靠性評價 UV照射量[mJ/cm 2] 500 500 2000 500 500 500 500 500 可靠性評價結果 B B A B B C C C [Table 1-2] Comparative example 1 2 3 4 5 6 7 8 Epoxy resin ST-3000 (hydrogenated bisphenol A liquid epoxy resin, 225 g/eq) 40 50 40 70 70 50 50 50 YX8040 (hydrogenated bisphenol A solid epoxy resin, 1200 g/eq) 828 (bisphenol A liquid epoxy resin, 185 g/eq) Phenoxy resin YP-50 (phenoxy resin, Tg is 84℃) 30 30 YX7200B35 (phenoxy resin, Tg is 150℃) 60 50 60 YX7180 (phenoxy resin, Tg is 15℃) acrylic resin SG-708-6 (acrylic resin, Tg is 5℃) 50 50 50 polymerization initiator WPI-116 (anionic part: SbF 6 - ) 2 CPI-101A (anionic part: SbF 6 - ) CPI-100P (anionic part: PF 6 - ) 2 2 2 CPI-200K (Anion part: PF 3 (C 2 F 5 ) 3 - ) 2 2 TPO 2 Benzophenone 2 additives KBM-402 (silane coupling agent) 18-crown-6-ether (hardening retardant) Filler YC100C-MLA (silica filler) Hardened sample preparation conditions Thickness of laminated sample [mm] 300 300 300 300 300 300 300 300 UV irradiation dose [mJ/cm 2 ] 500 500 2000 500 500 500 500 500 Surface temperature difference of the sample before and after UV irradiation [℃] 0 0 45 0 0 0 0 0 Storage elastic modulus evaluation Tg of hardened material [℃] 65 62 130 57 56 5 5 5 Storage elastic modulus of hardened material [GPa] 0.6 0.5 1.8 0.4 0.3 0.3 0.3 0.4 Transparency evaluation Parallel light transmittance of hardened material@400 nm[%] 65 67 30 70 72 10 13 15 Reliability evaluation UV irradiation dose [mJ/cm 2 ] 500 500 2000 500 500 500 500 500 Reliability evaluation results B B A B B C C C

上述表中,以質量份表示接著劑之各成分之摻合量。空欄表示不含有該成分。In the above table, the blending amount of each component of the adhesive is expressed in parts by mass. Empty columns indicate that the ingredient is not included.

如上述表所示,於使用在陰離子部位不包含銻原子之光陽離子聚合起始劑、或光自由基聚合起始劑作為聚合起始劑之情形時,若為500 mJ/cm 2之較少之UV照射量,則會硬化不良,導致儲存彈性模數及Tg之至少一者較低,又,接著可靠性較差(比較例1~2、4~5)。進而,比較例1及2之平行光線穿透率亦較差。此外,若設為2000 mJ/cm 2之通常之UV照射量,則雖然儲存彈性模數及Tg變高,又,接著可靠性提昇,但是存在發熱,又,成為平行光線穿透率變差之結果(比較例3)。認為平行光線穿透率變低之原因在於由發熱所引起之黃變。若使用丙烯酸樹脂代替苯氧基樹脂,則不論聚合起始劑為何種類,均於500 mJ/cm 2之較少之UV照射量下,成為儲存彈性模數、接著可靠性、及透明性均較差之結果(比較例6~8)。認為比較例6~8產生白濁且丙烯酸樹脂與環氧樹脂之相容性較低係成為透明性較差之結果之原因。 相對於此,滿足本發明之規定之實施例1~13之膜狀接著劑即使於UV照射量為500 mJ/cm 2之情形時,儲存彈性模數及Tg亦較高,表現出優異之接著可靠性及平行光線穿透率。可知本發明之膜狀接著劑能夠以較少之照射量進行充分之硬化,接著力、透明性、於高溫下之接著可靠性均優異。又,可知藉由將本發明之膜狀接著劑用於裝置之製造,能夠提高裝置之可靠性。 又,可知若使用Tg為120℃以下之苯氧基樹脂作為苯氧基樹脂,則能夠進一步提高透明性(實施例1與實施例2之比較)。 可知若使用具有氫化雙酚結構之環氧樹脂作為環氧樹脂,則能夠進一步提高透明性(實施例1與實施例3之比較)。 可知若使用Tg為80℃以上之苯氧基樹脂作為苯氧基樹脂,則能夠進一步提高硬化物之接著力,具體而言,能夠進一步提高硬化物之Tg或儲存彈性模數,有助於接著力之提昇(實施例1與實施例11及12之比較)。 可知若將填充材料之含量降低至膜狀接著劑之固形物成分中之20質量%左右,則能夠將平行光線穿透率更加確實地提高至80%以上(實施例7與實施例13之比較)。 As shown in the above table, when using a photocationic polymerization initiator that does not contain an antimony atom in the anionic site or a photoradical polymerization initiator as the polymerization initiator, if it is less than 500 mJ/cm 2 If the amount of UV irradiation is too high, the hardening will be poor, resulting in at least one of the storage elastic modulus and Tg being low, and the subsequent reliability will be poor (Comparative Examples 1 to 2, 4 to 5). Furthermore, the parallel light transmittances of Comparative Examples 1 and 2 are also poor. In addition, if the normal UV irradiation dose is 2000 mJ/ cm2 , although the storage elastic modulus and Tg become higher, and the reliability is improved, there is heat generation, and the parallel light transmittance becomes worse. Results (Comparative Example 3). It is believed that the reason for the low transmittance of parallel light is yellowing caused by heat. If acrylic resin is used instead of phenoxy resin, regardless of the type of polymerization initiator, under a small UV irradiation dose of 500 mJ/ cm2 , the storage elastic modulus, bonding reliability, and transparency will be poor. The results (Comparative Examples 6 to 8). It is considered that Comparative Examples 6 to 8 produced white turbidity and the low compatibility between the acrylic resin and the epoxy resin resulted in poor transparency. In contrast, the film adhesives of Examples 1 to 13 that meet the requirements of the present invention have high storage elastic modulus and Tg even when the UV irradiation dose is 500 mJ/cm 2 , and exhibit excellent adhesion. Reliability and parallel light penetration. It is found that the film adhesive of the present invention can be fully cured with a small amount of irradiation, and has excellent adhesive strength, transparency, and adhesive reliability at high temperatures. Furthermore, it was found that by using the film adhesive of the present invention for manufacturing devices, the reliability of the devices can be improved. Moreover, it was found that if a phenoxy resin having a Tg of 120° C. or less is used as the phenoxy resin, the transparency can be further improved (comparison between Example 1 and Example 2). It was found that if an epoxy resin having a hydrogenated bisphenol structure is used as the epoxy resin, the transparency can be further improved (comparison between Example 1 and Example 3). It can be seen that if a phenoxy resin with a Tg of 80°C or higher is used as the phenoxy resin, the adhesive force of the cured product can be further improved. Specifically, the Tg or storage elastic modulus of the cured product can be further increased, which contributes to the adhesion. Increase in force (comparison between Example 1 and Examples 11 and 12). It is found that if the content of the filler material is reduced to about 20% by mass of the solid content of the film adhesive, the parallel light transmittance can be more reliably increased to more than 80% (Comparison between Example 7 and Example 13 ).

雖然對本發明及其實施方式進行了說明,但除非有特別指定,否則本發明並不受說明之任何細節限定,應以不違反隨附之申請專利範圍所示之發明之精神及範圍之方式廣泛地解釋。Although the present invention and its embodiments have been described, unless otherwise specified, the present invention is not limited to any details of the description, but should be broad in a manner that does not violate the spirit and scope of the invention as shown in the appended claims. explain.

本申請主張基於2022年6月30日於日本進行了專利申請之特願2022-105913之優先權,其以參照之方式將其內容併入至此作為本說明書之記載之一部分。This application claims priority based on Japanese Patent Application No. 2022-105913 filed in Japan on June 30, 2022, the contents of which are incorporated herein by reference as a part of the description of this specification.

1:膜狀接著劑 2:基材(支持基材) 1: Film adhesive 2: Base material (support base material)

[圖1]係示意性地表示實施例中所製備出之附剝離膜之膜狀接著劑之構造的剖視圖。[Fig. 1] is a cross-sectional view schematically showing the structure of the film-like adhesive agent with a release film prepared in the Example.

1:膜狀接著劑 1: Film adhesive

2:基材(支持基材) 2: Base material (support base material)

Claims (11)

一種能量射線硬化型膜狀透明接著劑,其含有:環氧樹脂、苯氧基樹脂、及於陰離子部位包含銻之光陽離子聚合起始劑。An energy ray curable film-like transparent adhesive contains: epoxy resin, phenoxy resin, and a photocationic polymerization initiator containing antimony in the anionic part. 如請求項1之能量射線硬化型膜狀透明接著劑,其中,上述苯氧基樹脂之玻璃轉移溫度為80~120℃。The energy ray curable film-like transparent adhesive according to claim 1, wherein the glass transition temperature of the phenoxy resin is 80 to 120°C. 如請求項1之能量射線硬化型膜狀透明接著劑,其中,上述能量射線硬化型膜狀透明接著劑之硬化物之玻璃轉移溫度為80℃以上。An energy ray curable film-like transparent adhesive according to claim 1, wherein the glass transition temperature of the cured product of the energy ray curable film-like transparent adhesive is 80° C. or higher. 如請求項1之能量射線硬化型膜狀透明接著劑,其中,上述能量射線硬化型膜狀透明接著劑之硬化物之平行光線穿透率為80%以上。An energy ray curable film-like transparent adhesive according to claim 1, wherein the parallel light transmittance of the cured product of the energy ray curable film-like transparent adhesive is above 80%. 如請求項1之能量射線硬化型膜狀透明接著劑,其中,上述能量射線硬化型膜狀透明接著劑之硬化物於常溫時之儲存彈性模數為1.0 GPa以上。The energy ray curable film-like transparent adhesive of claim 1, wherein the storage elastic modulus of the cured product of the energy ray-curable film-like transparent adhesive at room temperature is 1.0 GPa or more. 如請求項1之能量射線硬化型膜狀透明接著劑,其中,上述環氧樹脂具有氫化雙酚結構或雙酚結構。The energy ray curable film-like transparent adhesive of claim 1, wherein the epoxy resin has a hydrogenated bisphenol structure or a bisphenol structure. 如請求項1之能量射線硬化型膜狀透明接著劑,其包含矽烷偶合劑。The energy ray curable film-like transparent adhesive of claim 1 includes a silane coupling agent. 如請求項1之能量射線硬化型膜狀透明接著劑,其包含硬化延遲劑。The energy ray curable film-like transparent adhesive according to claim 1, which contains a hardening retardant. 如請求項1之能量射線硬化型膜狀透明接著劑,其包含填充材料。The energy ray curable film-like transparent adhesive of claim 1 includes a filling material. 一種裝置,其包含構成構件係使用請求項1至9中任一項之能量射線硬化型膜狀透明接著劑而被接著之構造。A device including a structure in which constituent members are bonded using the energy-beam curable film-like transparent adhesive according to any one of claims 1 to 9. 一種裝置之製造方法,其包括使用請求項1至9中任一項之能量射線硬化型膜狀透明接著劑來接著構成構件。A method of manufacturing a device, which includes using the energy ray curable film-like transparent adhesive according to any one of claims 1 to 9 to adhere constituent members.
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