1297088 九、發明說明: 【發明所屬之技術領域】 本發明涉及一種液晶顯示器及其製造方法。 【先前技術】 近年來,具有輕薄、輕巧、低耗電量等優點的液晶顯示器被廣泛地應 用在個人電腦、移動電話、電視、攝影機、測量儀器等顯示裝置上。 如第一圖所示,係一種先前技術的液晶顯示器的立體示意圖。該液晶 顯不100 —般包括第一基板102、第二基板11〇和夾在二者之間的液晶声 118。 曰曰1297088 IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to a liquid crystal display and a method of fabricating the same. [Prior Art] In recent years, liquid crystal displays having advantages such as lightness, lightness, and low power consumption have been widely used in display devices such as personal computers, mobile phones, televisions, video cameras, and measuring instruments. As shown in the first figure, it is a perspective view of a prior art liquid crystal display. The liquid crystal display typically includes a first substrate 102, a second substrate 11A, and a liquid crystal sound 118 sandwiched therebetween.曰曰
該液晶層118包括複數長棒狀的液晶分子120。該第一基板1〇2的内表 面104上形成有一配向膜106。該配向膜106靠近液晶層118的表面形成有 複數相互平行的微小溝槽108。該第二基板11〇的内表面丨丨2上形成有一配 向膜114。該配向膜114靠近液晶層118的表面形成有複數相互平行的微小 溝槽116。該溝槽108和116的主要功能在於對液晶層118中的液晶分子 120進行定向,也就是使靠近溝槽108和116的液晶分子12〇分別沿著溝槽 108和116的方向定向排列。該溝槽1〇8和116相互垂直,從而使得液晶分 子120的排列由上而下自動旋轉9〇度。 >該配向膜106和114在液晶顯示器1〇〇中起重要作用,配向品質的好 壞係決定液晶顯示器100顯示品質的關鍵因素之一。下面以配向膜114爲 例對配向膜的傳統製造方法進行說明。 … ,首先,在基板H0的内表面112上塗覆一層配向材料。該配向材料通 常選自聚酰亞胺(Polyimide,Pi)。然後,用絨布滾筒進行刷磨,使聚酰 亞胺表面形成複數微小溝槽116,從而形成配向膜114。 <這種依靠絨布滚筒對配向材料進行刷磨的接觸式製造方法的操作過程 較爲複雜,而且在操作過財料狀A量的靜電,産生大4的粉塵,從 而影響所製成的配向膜的品質。另外,所採用的絨布的壽命有限,需要經 常更換。 ' 【發明内容】 有鑒於此,有必要提供一種具有較佳的配向品質的液晶顯示器,以及 1297088 一種液晶顯示器的製造方法。 -種液晶顯不器,包括-第-基板、一第二基板、一液晶層及二配向 層。該第一基板與該第二基板相對設置,該液晶層夾於該第一基板與該第 二基板之間。該二配向層分別設置於該第_基板與該第二基板的靠近液晶 層的表面上其中,該二配向層分別爲由複數定向排列的碳奈米管形成的 薄層,且該第一基板上的碳奈米管的排列方向與該第二基板上的碳奈米管 的排列方向垂直。 一種液晶顯示器的製造方法,包括以下步驟:將複數碳奈米管沿第一 ^向排列在第-基板的表面上,形成—第—碳奈米管薄層;將複數碳奈米The liquid crystal layer 118 includes a plurality of long rod-shaped liquid crystal molecules 120. An alignment film 106 is formed on the inner surface 104 of the first substrate 1'2. The alignment film 106 is formed with a plurality of minute grooves 108 which are parallel to each other on the surface of the liquid crystal layer 118. An alignment film 114 is formed on the inner surface 丨丨 2 of the second substrate 11A. The alignment film 114 is formed with a plurality of minute grooves 116 which are parallel to each other on the surface of the liquid crystal layer 118. The primary function of the trenches 108 and 116 is to orient the liquid crystal molecules 120 in the liquid crystal layer 118, i.e., to align the liquid crystal molecules 12 靠近 near the trenches 108 and 116, respectively, in the direction of the trenches 108 and 116. The grooves 1〇8 and 116 are perpendicular to each other such that the arrangement of the liquid crystal molecules 120 is automatically rotated by 9 degrees from top to bottom. > The alignment films 106 and 114 play an important role in the liquid crystal display, and the quality of the alignment determines one of the key factors for the display quality of the liquid crystal display 100. Next, a conventional manufacturing method of the alignment film will be described by taking the alignment film 114 as an example. ..., first, a layer of alignment material is coated on the inner surface 112 of the substrate H0. The alignment material is typically selected from the group consisting of polyimide (Polyimide, Pi). Then, it is brushed with a fleece roller to form a plurality of minute grooves 116 on the surface of the polyimide to form an alignment film 114. <This contact manufacturing method which relies on the flannel roller to brush the alignment material is complicated in operation, and the static electricity in the amount of material A is generated, and a large dust is generated, thereby affecting the prepared alignment. The quality of the film. In addition, the fleece used has a limited life and needs to be replaced frequently. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a liquid crystal display having better alignment quality, and a manufacturing method of a liquid crystal display of 1297088. A liquid crystal display comprising a -first substrate, a second substrate, a liquid crystal layer and a second alignment layer. The first substrate is disposed opposite to the second substrate, and the liquid crystal layer is sandwiched between the first substrate and the second substrate. The two alignment layers are respectively disposed on the surface of the first substrate and the second substrate adjacent to the liquid crystal layer, wherein the two alignment layers are respectively a thin layer formed by a plurality of aligned carbon nanotubes, and the first substrate The arrangement of the upper carbon nanotubes is perpendicular to the arrangement direction of the carbon nanotubes on the second substrate. A method for manufacturing a liquid crystal display, comprising the steps of: arranging a plurality of carbon nanotubes on a surface of a first substrate along a first direction to form a thin layer of a first carbon nanotube; and a plurality of carbon nanotubes
管沿與該第-方向減直的第二方向制在第二基板絲面上,形成一第 二碳奈薄層;將該第—基板與該第二基板組成—液晶盒,其中該第一 碳奈米㈣層和該第二碳奈米管薄層相面對;及將液晶注人驗晶盒内, 製得液晶顯不器。 相對於先前技術,所述的液晶顯示器利躲板上定向排列的碳奈米管 作爲配向材料,該碳奈綺設置在基板上後不需要進行機械或者其他 處理,不會産生靜電和粉塵;另外,每相鄰兩個碳奈米管之間形成的溝槽 的尺寸較為微小,如奈米級,從而使驗晶顯示器具有較佳的配向品質。曰 相對於先前技術,所述的液晶顯示器的製造方法步驟簡單,不需要對 碳奈米管騎進行機械繼或者其他處理,在製造過財不會産生靜電和 粉塵’從而可以製得具有較她向品質驗晶顯示器。 【實施方式】 下面將結合附圖對本發明作進一步的詳細說明。 如第-圖所示’係本發明液晶顯示器的剖面示意圖。該液晶顯示器獅 主要包括-第-基板2〇2、一第二基板22()及一液晶層238。 該第-基板202與該第二基板22〇相對設置。該液晶層238包括複數 分子240 ’且該液晶層238失於該第一基板202與該第二基板 ^ “ 基板202的内表面2〇4依次設置一第一透明電極層208和 石反奈米官薄層21〇,該第一基板2〇2的外表面2〇6設置一第一偏先片 216該第一基板22〇的内表面222依次設置一第二透明電極層2沈和—第Forming a second carbon nanolayer on the surface of the second substrate along the second direction of straightening the first direction; forming the second substrate and the second substrate - the liquid crystal cell, wherein the first The carbon nano (four) layer and the second carbon nanotube thin layer face each other; and the liquid crystal is injected into the crystallographic cell to obtain a liquid crystal display. Compared with the prior art, the liquid crystal display uses an aligned carbon nanotube tube as an alignment material, and the carbon nanotube is disposed on the substrate without mechanical or other treatment, and does not generate static electricity and dust; The size of the trench formed between each adjacent two carbon nanotubes is relatively small, such as nanometer level, so that the crystallographic display has better alignment quality.曰 Compared with the prior art, the manufacturing method of the liquid crystal display is simple in steps, and does not require mechanical or other treatment of the carbon nanotube riding, and does not generate static electricity and dust during manufacturing, so that it can be made with her. Check the display to the quality. [Embodiment] Hereinafter, the present invention will be further described in detail with reference to the accompanying drawings. As shown in the figure, a schematic cross-sectional view of the liquid crystal display of the present invention is shown. The liquid crystal display lion mainly comprises a first substrate 2, a second substrate 22 () and a liquid crystal layer 238. The first substrate 202 is disposed opposite to the second substrate 22A. The liquid crystal layer 238 includes a plurality of molecules 240' and the liquid crystal layer 238 is lost from the first substrate 202 and the second substrate. The inner surface 2〇4 of the substrate 202 is sequentially provided with a first transparent electrode layer 208 and a stone reverse nanometer. The front surface of the first substrate 2〇2 is provided with a first partial piece 216. The inner surface 222 of the first substrate 22 is sequentially provided with a second transparent electrode layer 2 and a first layer.
1297088 二=二;|層228,該第二基板220的外表面224設置-第二偏光片234。 上的^了f奈米管薄層21〇包括沿X轴方向定向排列在該第一基板2〇2 碳太来米官212。該碳奈米管212可以是單壁碳奈米管(SWNT)、多壁 b (_)、單壁碳奈米管束(篇、錄碳奈米管束(隱 t的或者超順排多壁碳奈米管長線(Super-al igned MTOT Yam幻 V〇1· 419, PP. 8G1,證]等。該第一破奈米管薄層210的厚度 :笛碳Ϊ米管的不同而不同,例如,當採用單層的單壁碳奈米管時 官薄層謂的厚度大約爲1奈米,當分聰用多壁碳奈米管、 =太t米官束、多壁碳奈米管束或超順排多壁碳奈米管長線時,該第一 官薄層210的厚度將分別逐漸增加至數微米。該複數礙奈米管212 营又可以和該第一基板2G2在X轴方向上的寬度相同,也可以採用比該 覓度較小一些的長度。 7由於碳奈米官212爲圓管狀,每相鄰兩個碳奈米管2丨2之間即可形成 微小溝槽214(參第三圖),從而使得該第一碳奈米管薄層21〇對液晶分子 240具有配向作用。 一該第二碳奈米管薄層228的結構及作用與該第一碳奈米管薄層21〇相 同,不同在於該第二碳奈米管薄層228中的碳奈米管23〇是沿2軸方向定 向排列在該第二基板220上。 以下結合第三圖與第四圖對本發明液晶顯示器2〇〇的工作過程進行說 明0 如第三圖所示,當沒有電壓施加在透明電極208和226之間時,液晶 ^子240的排列會依照碳奈米管薄層21〇、228的配向而定。在本發明的液 晶顯示器200中,碳奈米管薄層21〇、228的配向方向形成90度,所以液 晶分子240的排列由上而下會自動旋轉90度。當入射的光線]1經過第一偏 光片216時,由於該第一偏光片216的穿透軸(Transmission Axis) 218沿 X軸方向,所以只有偏振方向與該穿透轴218平行的偏振光L1通過。當該 偏振光L1通過液晶分子240時,由於液晶分子240總共旋轉了 90度,所 以當偏振光L1到達第二偏光片234時,偏振光L1的偏振方向恰好轉了 90 度。由於第二偏光片234的穿透轴236沿Z軸方向,即:偏振光li的偏振1297088 2=2;|layer 228, the outer surface 224 of the second substrate 220 is provided with a second polarizer 234. The thin layer 21 of the nano tube includes a carbon terrarium 212 aligned on the first substrate 2〇2 along the X-axis direction. The carbon nanotube 212 may be a single-walled carbon nanotube (SWNT), a multi-walled b (_), a single-walled carbon nanotube bundle (a carbon nanotube bundle) (hidden or super-aligned multi-wall carbon) Nano-tube long line (Super-al igned MTOT Yam illusion V〇1· 419, PP. 8G1, certificate), etc. The thickness of the first layer of nano-tubes 210: different from the carbon nanotubes, for example When a single-walled single-walled carbon nanotube is used, the thickness of the official layer is about 1 nm. When using a multi-wall carbon nanotube, = too t-meter, multi-wall carbon nanotube bundle or When the super-aligned multi-wall carbon nanotubes are long, the thickness of the first official thin layer 210 will gradually increase to several micrometers respectively. The plurality of barrier nanotubes 212 can be in the X-axis direction with the first substrate 2G2. The width is the same, and a length smaller than the twist can also be used. 7 Since the carbon nano-212 is a circular tube, a micro-groove 214 can be formed between each adjacent two carbon nanotubes 2丨2 ( Referring to FIG. 3), the first carbon nanotube thin layer 21〇 has an alignment effect on the liquid crystal molecules 240. The structure and function of the second carbon nanotube thin layer 228 and the first carbon nanotube The layer 21 is the same except that the carbon nanotubes 23 in the second carbon nanotube layer 228 are aligned on the second substrate 220 in the biaxial direction. The following is a combination of the third and fourth figures. The operation process of the invention of the liquid crystal display 2 is explained. As shown in the third figure, when no voltage is applied between the transparent electrodes 208 and 226, the arrangement of the liquid crystals 240 is in accordance with the thin layer of the carbon nanotubes 21, In the liquid crystal display 200 of the present invention, the alignment directions of the carbon nanotube thin layers 21, 228 are formed at 90 degrees, so that the arrangement of the liquid crystal molecules 240 is automatically rotated by 90 degrees from top to bottom. When the light ray 1 passes through the first polarizer 216, since the transmission axis 218 of the first polarizer 216 is along the X-axis direction, only the polarized light L1 whose polarization direction is parallel to the transmission axis 218 passes. When the polarized light L1 passes through the liquid crystal molecules 240, since the liquid crystal molecules 240 are rotated by 90 degrees in total, when the polarized light L1 reaches the second polarizer 234, the polarization direction of the polarized light L1 is just rotated by 90 degrees. The penetration axis 236 of the piece 234 is along the Z axis , Namely: li polarized polarization
圍内 1297088 方向因轉了 90度而與穿透轴236平行,從而可以順利的通過第二偏光片 234,此時,本發明的液晶顯示器200處於通光的狀態。 如第四圖所示,當有電壓施加在透明電極208和226之間時,液晶分 子240受電場的影響,其排列方向會傾向平行於電場方向而變成站立狀態。 此時通過第一偏光片216的偏振光L1經過液晶分子240時便不會改變偏振 方向,因此就無法通過第二偏光片234,此時,本發明的液晶顯示器2〇〇處 於遮光的狀態。 以下再結合第二圖對本發明液晶顯示器的製造方法進行說明。該液晶 顯示器的製造方法包括以下步驟:採用化學氣相沈積生長法、溶液沈積法 或者直接敷設法將複數碳奈米管212沿χ軸方向排列在第一基板2〇2的内 表面2〇4上,形成第一碳奈米管薄層21〇,其中,該碳奈米管212是單壁碳 ί米管:錢碳奈米f、單壁碳奈料束、?壁碳奈米管束或超順排多壁 碳奈米管長線;採用與第-碳奈米管薄層21()相同的方法在第二基板22〇 的内表面222上形成第二碳奈米管薄層228,其中該複數碳奈米管23〇沿z 軸方向排列在第二基板220的内表面222上;將該第-基板2Q2與第二基 ^ 220組成-液晶盒;將液晶分子24()注人該液晶盒内,製得“顯示‘ 相對於先前技術,所述的液晶顯示器利用基板上定向排列的碳夺米 2配向,,該碳奈米管設置在基板上後不需要進行機械刷磨或者其他 :尺寸靜電和粉塵;另外’每相鄰兩個碳奈米管之間形成的溝槽 的尺寸=為微小’如奈米級,從而使該液晶顯示器具有較佳的配向品質。 破太技術’所述的液晶顯示器的製造方法步驟簡單,不需要對 細顧者其魏理,在觀触中#纽靜電和粉 塵^可崎得具有錄配向品質驗晶。 上所ϋίϊΐί發曝合發明專利要件,爰依法提出專辦請。惟,以 本宰發之較佳實施方式,舉凡熟悉本案技藝之人士,在援依 本軏明精神所作之等效修飾紐化,皆應包含独下 美依 1297088 · * 【圖式簡單說明】 第一圖係一種先前技術的液晶顯示器的立體示意圖。 ^ 第二圖係本發明液晶顯示器的剖面示意圖。 - 第三圖係本發明液晶顯示器處於通光狀態的立體示意圖。 第四圖係本發明液晶顯示器處於遮光狀態的立體示意圖。 【主要元件符號說明】 液晶顯不 200 内表面 204 、 222 第一透明電極層 208 碳奈米管 212 、 230 第一偏光片 216 第二基板 220 第二碳奈米管薄層 228 液晶層 238 第一基板 202 外表面 206 、 224 第一碳奈米管薄層 210 微小溝槽 214 穿透軸 218 、 236 第二透明電極層 226 第二偏光片 234 液晶分子 240The direction of the inner 1297088 is parallel to the transmission axis 236 by the rotation of 90 degrees, so that the second polarizer 234 can be smoothly passed. At this time, the liquid crystal display 200 of the present invention is in a light-passing state. As shown in the fourth figure, when a voltage is applied between the transparent electrodes 208 and 226, the liquid crystal molecules 240 are affected by the electric field, and the arrangement direction thereof tends to be parallel to the direction of the electric field to become a standing state. At this time, when the polarized light L1 passing through the first polarizer 216 passes through the liquid crystal molecules 240, the polarization direction is not changed, so that the second polarizer 234 cannot be passed. At this time, the liquid crystal display 2 of the present invention is in a state of being shielded from light. Hereinafter, a method of manufacturing the liquid crystal display of the present invention will be described with reference to the second drawing. The manufacturing method of the liquid crystal display comprises the steps of: arranging the plurality of carbon nanotubes 212 in the z-axis direction on the inner surface of the first substrate 2〇2 by chemical vapor deposition growth, solution deposition or direct application. On the top, a thin layer 21 of the first carbon nanotube is formed, wherein the carbon nanotube 212 is a single-walled carbon nanotube: a carbon-carbon nanotube f, a single-wall carbon nanotube bundle, a wall carbon nanotube bundle or a super-sequential multi-walled carbon nanotube long line; forming a second carbon nanoparticle on the inner surface 222 of the second substrate 22〇 in the same manner as the first carbon nanotube thin layer 21 () a thin layer 228, wherein the plurality of carbon nanotubes 23 are arranged on the inner surface 222 of the second substrate 220 along the z-axis direction; the first substrate 2Q2 and the second substrate 220 are formed into a liquid crystal cell; 24()Injecting the inside of the liquid crystal cell, producing "display" relative to the prior art, the liquid crystal display is aligned with the carbon rice 2 aligned on the substrate, and the carbon nanotube is not required after being disposed on the substrate Mechanical brushing or other: size electrostatic and dust; in addition 'the size of the groove formed between each adjacent two carbon nanotubes = tiny 'such as nanometer level, so that the liquid crystal display has better alignment The method of manufacturing the liquid crystal display described in the "Tai Tai Technology" is simple, and it is not necessary to pay attention to the Wei Li, in the view of the touch #纽静电 and the dust ^ Kizaki has the record to the quality of the crystal. 上ϋ ϊΐίϊΐί To expose the invention patent requirements, please file a special request according to law. In the preferred embodiment of this slaughter, those who are familiar with the skill of the case, in the spirit of the aid of the spirit of this Ming Ming, the equivalent of the modification should include the United States and the United States 1297088 · * [Simple description] Figure 2 is a schematic perspective view of a prior art liquid crystal display. The second figure is a schematic cross-sectional view of the liquid crystal display of the present invention. - The third figure is a perspective view of the liquid crystal display of the present invention in a light-passing state. Stereoscopic diagram in a light-shielded state. [Main component symbol description] Liquid crystal display 200 inner surface 204, 222 first transparent electrode layer 208 carbon nanotube 212, 230 first polarizer 216 second substrate 220 second carbon nanotube Thin layer 228 liquid crystal layer 238 first substrate 202 outer surface 206, 224 first carbon nanotube thin layer 210 micro groove 214 penetration axis 218, 236 second transparent electrode layer 226 second polarizer 234 liquid crystal molecule 240