TWI587763B - The use of gravure printing method to form conductive totem - Google Patents
The use of gravure printing method to form conductive totem Download PDFInfo
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Description
本發明為有關一種形成導電圖騰的方法,尤指一種利用凹版印刷方式形成導電圖騰的方法。The present invention relates to a method of forming a conductive totem, and more particularly to a method of forming a conductive totem by gravure printing.
隨著科技的進步,使科技產品朝著更加輕薄短小的方向發展,因此,積體電路便廣泛的應用於各種電子產品之中,於製造過程中,需要於基板上製作出極細微尺寸的線路圖案時,主要是藉由蝕刻微影技術來達成。With the advancement of technology, technology products are moving toward a lighter, thinner and shorter direction. Therefore, integrated circuits are widely used in various electronic products. In the manufacturing process, extremely fine-sized circuits need to be fabricated on the substrate. When the pattern is used, it is mainly achieved by etching lithography.
如中華民國專利公告第I459875號之「一種具有圖案化導電層之電路板的製備方法」,其製作方法為先於一基材上設置一導電層,再於該導電層上設置一光阻層,接著,設置一具有一預設圖案之光罩層於該光阻層上,並施予一輻射光線通過該光罩層照射該光阻層,再使用一顯影液處理該光阻層以及使用一蝕刻液蝕刻該導電層,最後,移除該光阻層,而得到一對應於該預設圖案之導電層。For example, the method for preparing a circuit board having a patterned conductive layer is prepared by disposing a conductive layer on a substrate and then providing a photoresist layer on the conductive layer. Next, a photomask layer having a predetermined pattern is disposed on the photoresist layer, and a radiation light is applied to illuminate the photoresist layer through the photomask layer, and the photoresist layer is processed and used using a developer solution. An etchant etches the conductive layer, and finally, the photoresist layer is removed to obtain a conductive layer corresponding to the predetermined pattern.
然而,此種製造方法於形成該光阻層後,還需要使用黃光顯影等設備來進行製程,進而提高製程的複雜度以及降低製程速度,因此,如何降低製程的複雜度以提高製程速度,以及減少機台的使用以降低成本,實為一大課題。However, in the manufacturing method, after the photoresist layer is formed, a device such as a yellow light developing device is required to perform the process, thereby increasing the complexity of the process and reducing the process speed. Therefore, how to reduce the complexity of the process to increase the process speed, And reducing the use of the machine to reduce costs is a big issue.
本發明的主要目的,在於解決習知技術需要使用黃光顯影等設備來進行製程,而有製程成本高以及複雜度高的問題。The main object of the present invention is to solve the problem that the prior art requires the use of equipment such as yellow light development for the process, and has the problems of high process cost and high complexity.
為達上述目的,本發明提供一種利用凹版印刷方式形成導電圖騰的方法,包含有以下步驟:To achieve the above object, the present invention provides a method of forming a conductive totem by gravure printing, comprising the following steps:
S1:形成一導電層於一基板上;S1: forming a conductive layer on a substrate;
S2:利用凹版印刷的方式於該導電層上形成一遮蔽保護圖騰;以及S2: forming a shadow protection totem on the conductive layer by means of gravure printing;
S3:對該導電層進行蝕刻,使該導電層形成一對應於該遮蔽保護圖騰的導電圖騰。S3: etching the conductive layer to form a conductive totem corresponding to the shielding protection totem.
綜上所述,本發明具有以下特點:In summary, the present invention has the following features:
一、藉由利用凹版印刷的方式形成該遮蔽保護圖騰,而不需要經過黃光顯影等製程,而可減少昂貴機台的使用,以降低成本。1. The shadow protection totem is formed by using gravure printing, without the need of a process such as yellow light development, and the use of an expensive machine can be reduced to reduce the cost.
二、利用直接印刷形成該遮蔽保護圖騰的方式,避免使用光阻仍須經過曝光、顯影、蝕刻光阻等程序而後再進行導電層之蝕刻問題,降低製程的複雜度並提高製程速度。Second, the use of direct printing to form the shield protection totem, to avoid the use of photoresist still has to undergo exposure, development, etching photoresist and other procedures and then the conductive layer etching problem, reduce the complexity of the process and improve the processing speed.
有關本發明的詳細說明及技術內容,現就配合圖式說明如下:The detailed description and technical content of the present invention will now be described as follows:
請參閱「圖1」及「圖2A」至「圖2F」所示,本發明為一種利用凹版印刷方式形成導電圖騰的方法,包含有以下步驟:Please refer to FIG. 1 and FIG. 2A to FIG. 2F. The present invention is a method for forming a conductive totem by gravure printing, which comprises the following steps:
S1:如「圖2A」所示,於一基板10上形成一導電層20,於此實施例中,該導電層20為利用濺鍍的方式形成於該基板10上,而該基板10的材質可以為聚對苯二甲酸乙二酯、聚二甲酸乙二醇酯、三醋酸纖維素、聚乳酸或其組合等,該導電層20的材質可以為金屬如金、銀、銅等導電材質或可為非金屬的導電材質,且於本實施例中,該導電層20的厚度小於5微米,理由請待後續一併說明。另需特別說明的是,於本實施例中,係以製作導電線作為製作的流程舉例。S1: As shown in FIG. 2A, a conductive layer 20 is formed on a substrate 10. In this embodiment, the conductive layer 20 is formed on the substrate 10 by sputtering, and the material of the substrate 10 is The conductive layer 20 may be made of a conductive material such as gold, silver or copper, or may be polyethylene terephthalate, polyethylene terephthalate, cellulose triacetate, polylactic acid or a combination thereof. It can be a non-metallic conductive material, and in the present embodiment, the thickness of the conductive layer 20 is less than 5 micrometers, the reasons are as follows. It should be particularly noted that in the present embodiment, a conductive line is produced as an example of the fabrication process.
S2:如「圖2B」及「圖2C」所示,利用凹版印刷的方式於該導電層20上形成一遮蔽保護圖騰30,且該遮蔽保護圖騰30之材質為抗金屬蝕刻液之樹脂或抗金屬蝕刻液之油墨等等,且由於凹版印刷的能力限制,若凹版印刷之轉印空間太小時,容易因與導電層20之接觸面積太小的關係,而有轉印不完全或轉印失敗的問題,因此該遮蔽保護圖騰30之寬度最小僅能到達7微米左右,而形成複數線狀體31,於本實施例中,該些線狀體31之寬度皆小於10微米,此外,該遮蔽保護圖騰30亦可以配合使用者的需求而為不同形狀,不以此為限。且於此實施例中,更具有以下步驟:S2: As shown in FIG. 2B and FIG. 2C, a shielding protection totem 30 is formed on the conductive layer 20 by gravure printing, and the material of the shielding protection totem 30 is a resin or anti-metal etching solution. The ink of the metal etching solution or the like, and due to the limitation of the gravure printing ability, if the transfer space of the gravure printing is too small, the contact area with the conductive layer 20 is likely to be too small, and the transfer is incomplete or the transfer fails. Therefore, the width of the shielding protection totem 30 can only reach about 7 micrometers at a minimum, and the plurality of linear bodies 31 are formed. In the embodiment, the widths of the linear bodies 31 are all less than 10 micrometers. The protection totem 30 can also be shaped differently according to the needs of the user, and is not limited thereto. And in this embodiment, the following steps are further included:
S2A:先將一遮蔽保護劑42填充至一轉印件40中之一凹槽41內。S2A: A masking protectant 42 is first filled into one of the grooves 41 in a transfer member 40.
S2B:使該轉印件40接觸於該導電層20,並轉印該凹槽41內之該遮蔽保護劑42至該導電層20上,而形成該遮蔽保護圖騰30,如此一來,可以直接形成製程所需的圖騰,而可以減少該遮蔽保護劑42的使用量,且不需要經過黃光顯影等製程來移除多餘的該遮蔽保護劑42,可以降低製程的複雜度以及提高製程速度。S2B: contacting the transfer member 40 with the conductive layer 20, and transferring the shielding protection agent 42 in the recess 41 to the conductive layer 20 to form the shielding protection totem 30, thereby directly The totem required for the process is formed, and the amount of the shielding protectant 42 can be reduced, and the process such as yellow light development is not required to remove the excess shielding protection agent 42, which can reduce the complexity of the process and increase the process speed.
S2C:接著利用紫外線照光固化、紅外線照光固化或加熱固化等方式來固化該遮蔽保護圖騰30,當然地,亦可利用接觸到空氣即會漸漸硬化的材料作為該遮蔽保護劑42,以形成該遮蔽保護圖騰30。S2C: The shielding protection totem 30 is then cured by ultraviolet curing, infrared curing or heat curing. Of course, a material that gradually hardens when exposed to air may be used as the shielding protection agent 42 to form the shielding. Protect the totem 30.
S3:如「圖2D」至「圖2F」所示,對該導電層20進行蝕刻,使該導電層20形成一對應於該遮蔽保護圖騰30的導電圖騰21,最後移除該遮蔽保護圖騰30,即完成本發明之製作步驟,而本實施例更包含有以下步驟:S3: as shown in FIG. 2D to FIG. 2F, the conductive layer 20 is etched to form the conductive layer 20 to form a conductive totem 21 corresponding to the shielding protection totem 30, and finally the shielding protection totem 30 is removed. That is, the manufacturing steps of the present invention are completed, and the embodiment further includes the following steps:
S3A:如「圖2D」所示,先對該導電層20未被該遮蔽保護圖騰30遮蔽之區域進行非等向性蝕刻,直到該導電層20顯露出該基板10,並形成對應於該遮蔽保護圖騰30之圖樣的該導電圖騰21。S3A: as shown in FIG. 2D, the region of the conductive layer 20 that is not shielded by the shielding protection totem 30 is first anisotropically etched until the conductive layer 20 reveals the substrate 10 and is formed corresponding to the shielding. The conductive totem 21 that protects the pattern of the totem 30.
S3B:如「圖2E」所示,繼續對該導電層20進行蝕刻,使蝕刻液更進一步的對該導電圖騰21垂直於該基板10之側面進行蝕刻,而使該導電圖騰21的寬度小於該遮蔽保護圖騰30的寬度,進一步縮小線寬,以達成製程上之要求。S3B: as shown in FIG. 2E, the conductive layer 20 is further etched, so that the etchant further etches the conductive tom 21 perpendicular to the side of the substrate 10, so that the width of the conductive tom 21 is smaller than the Masking protects the width of the totem 30 and further reduces the line width to meet the process requirements.
如上述說明,由於蝕刻液係為非等向性蝕刻,因此在步驟S3A中,於向下蝕刻該導電層20的同時一併會進行該導電層20的側向蝕刻,因此限定該導電層20之厚度需小於5微米,這樣的作法下,尚可使得經過側向蝕刻之導電層20所形成之導電圖騰21之寬度為7微米左右;又或者,可依據導電圖騰21之深寬比例作為調整,而使該導電層20之厚度需小於導電圖騰21之寬度。當然地,亦可透過等向性蝕刻,而依序的進行垂直蝕刻以及側向蝕刻。As described above, since the etching liquid is an anisotropic etching, in step S3A, lateral etching of the conductive layer 20 is performed while etching the conductive layer 20 downward, thereby defining the conductive layer 20 The thickness of the conductive totem 21 formed by the laterally etched conductive layer 20 may be about 7 micrometers. Alternatively, the thickness of the conductive totem 21 may be adjusted according to the aspect ratio of the conductive totem 21. The thickness of the conductive layer 20 is required to be smaller than the width of the conductive tom 21. Of course, vertical etching and lateral etching can also be performed sequentially by isotropic etching.
綜上所述,本發明具有以特點:In summary, the present invention has the features:
一、 藉由利用凹版印刷的方式形成該遮蔽保護圖騰,而可以減少該遮蔽保護劑的使用量,以降低成本,且不需要經過黃光顯影等製程,而可以降低製程的複雜度並提高製成生產速度,再者,黃光顯影機台等的價格昂貴,本發明不需要利用黃光顯影機台,而可以進一步降低製程成本。1. By forming the shielding protection totem by means of gravure printing, the amount of the shielding protection agent can be reduced, the cost can be reduced, and the process such as yellow light development can be eliminated, and the complexity of the process can be reduced and the system can be improved. In terms of production speed, in addition, the yellow light developing machine and the like are expensive, and the present invention does not require the use of a yellow light developing machine, and can further reduce the process cost.
二、 藉由持續對該導電層進行蝕刻,使該導電圖騰的寬度小於該遮蔽保護圖騰的寬度,而進一步縮小線寬,使線寬極細化,以達成製程上之要求。2. By continuously etching the conductive layer, the width of the conductive totem is smaller than the width of the shielding protection totem, and the line width is further reduced to make the line width extremely fine to meet the requirements of the process.
因此本發明極具進步性及符合申請發明專利的要件,爰依法提出申請,祈 鈞局早日賜准專利,實感德便。Therefore, the present invention is highly progressive and conforms to the requirements of the invention patent application, and the application is filed according to law, and the praying office grants the patent as soon as possible.
以上已將本發明做一詳細說明,惟以上所述者,僅爲本發明的一較佳實施例而已,當不能限定本發明實施的範圍。即凡依本發明申請範圍所作的均等變化與修飾等,皆應仍屬本發明的專利涵蓋範圍內。The present invention has been described in detail above, but the foregoing is only a preferred embodiment of the present invention, and is not intended to limit the scope of the invention. That is, the equivalent changes and modifications made by the scope of the present application should remain within the scope of the patent of the present invention.
10:基板 20:導電層 21:導電圖騰 30:遮蔽保護圖騰 31:線狀體 40:轉印件 41:凹槽 42:遮蔽保護劑 S1~S3、S2A~S2C、S3A、S3B:步驟10: Substrate 20: Conductive layer 21: Conductive totem 30: Shadow protection totem 31: Linear body 40: Transfer member 41: Groove 42: Masking protectant S1~S3, S2A~S2C, S3A, S3B: Step
圖1,為本發明一較佳實施例的流程示意圖。 圖2A~2F,為本發明一較佳實施例的結構製作流程示意圖。FIG. 1 is a schematic flow chart of a preferred embodiment of the present invention. 2A-2F are schematic diagrams showing the structure of a structure according to a preferred embodiment of the present invention.
S1~S3、S2A~S2C、S3A、S3B:步驟S1~S3, S2A~S2C, S3A, S3B: Steps
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TW201520062A (en) * | 2013-10-28 | 2015-06-01 | Murata Manufacturing Co | Method for manufacturing gravure plate, gravure printing method, and method for manufacturing electronic component |
TW201526735A (en) * | 2013-08-16 | 2015-07-01 | Lg Chemical Ltd | Conducting substrate and method for preparing the same |
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US20040159257A1 (en) * | 2001-05-25 | 2004-08-19 | Christophe Mathieu | Method for the manufacture of a printed circuit and planar antenna manufactured with this printed circuit |
US8431828B2 (en) * | 2005-03-22 | 2013-04-30 | Imec | Composite substrate |
TW201415067A (en) * | 2012-03-28 | 2014-04-16 | Sony Corp | Conductive element and method of manufacture thereof, wiring element, and master |
TW201526735A (en) * | 2013-08-16 | 2015-07-01 | Lg Chemical Ltd | Conducting substrate and method for preparing the same |
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