Abstract:
A method of manufacturing micro-structure elements by utilizing molding glass includes the steps of forming a mold having a micro-structure pattern thereon by using an electroforming process, making a copy of the micro-structuring pattern on a glass structure by using glass molding technology, and filling clothing material on the glass substrate to form a micro-structure element with less complex and cost, thereby being suitable for mass production.

Description:
BACKGROUND OF THE INVENTION  
       [0001]     1. Field of Invention  
         [0002]     The invention relates to a method of manufacturing a micro-structure element, and particularly to a method of manufacturing micro-structure element a by utilizing molding glass.  
         [0003]     2. Related Art  
         [0004]     With the rapid development of semi-conductor and optical communication system technology, the requirements system integration, size reduction and improved convenience are increasing day by day. Nowadays, the method of manufacturing micro-structure elements such as optical wave guide elements has become more complex than before.  
         [0005]     The related methods of manufacturing micro-structure elements mainly comprise three types; one is a heat embossing process, second is a step and flash imprint lithography process, and the third is a soft lithography process. These types have the disadvantages of higher cost and difficulty to change the material collectively. Refer to U.S. Pat. No. 5,772,905, which provides steps to coat a thermoplastic polymer on a substrate before performing the heat embossing process. The polymer is softened by controlling temperature and pressure conditions, and then is transformed to a nano-element by an imprinting process.  
         [0006]     In addition, the method of manufacturing an optical wave guide element applied in various systems and instruments mainly uses photo-lithography technology. The steps comprise forming a glass fiber on the recess portion of a substrate, filling polymer material in a die having specific shapes thereon, and depositing the major material of the optical wave guide element on the substrate, which involves forming photo-resist material over the major material, forming the photo-resist material by exposure and developing processes, etching the major material by means of the photo-resist material, and removing the photo-resist material. The optical wave guide element is thus formed.  
         [0007]     The above-described technology for manufacturing micro-structure elements has some disadvantages, including being more complicated and harder to mass produce so as to incur high costs. Hence, improving the method of manufacturing micro-structure elements is currently an important focus of the art.  
       SUMMARY OF THE INVENTION  
       [0008]     The invention provides a method of manufacturing micro-structure elements by utilizing molding glass. By using glass molding technology, form the micro-structure element on a glass, which is formed by a mold having a micro-structure pattern thereon. This method of the invention is easier for mass production, saves manufacturing costs.  
         [0009]     Accordingly, the method of manufacturing a micro-structure element by utilizing molding glass includes the steps of forming a mold with a micro-structure pattern thereon from an electroforming material by using an electroforming process, imprinting the mold onto a glass substrate for making a copy of the micro-structure pattern of the mold on the glass substrate, and filling a clothing material into the copy of the micro-structure pattern of the glass substrate.  
         [0010]     Further scope of applicability of the invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description. 
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0011]      FIG. 1  is a flow chart of the manufacturing method for a micro-structure element of the invention.  
         [0012]      FIGS. 2A  to  2 D are schematic views, which show steps of the method of manufacturing a micro-structure element by utilizing molding glass as disclosed in the first embodiment of the invention.  
         [0013]      FIGS. 3A  to  3 F are schematic views, which show the steps of manufacturing molding glass as disclosed in the first embodiment of the invention.  
         [0014]      FIGS. 4A  to  4 F are schematic views, which show steps of the method of manufacturing a micro-structure element by utilizing molding glass as disclosed in the second embodiment of the invention.  
         [0015]      FIGS. 5A  to  5 E are schematic views, which show steps of the method of manufacturing a micro-structure element by utilizing molding glass as disclosed in the third embodiment of the invention.  
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0016]     Please refer to  FIG. 1 . The steps of the method of manufacturing micro-structure elements by utilizing molding glass of the invention are disclosed as follows. First, form a mold, which has a micro-structure pattern thereon, by using an electroforming method according to step  100 . Make a copy of the micro-structure pattern on a glass substrate by utilizing the mold according to step  200 . Finally, fill clothing material into the glass substrate. The micro-structure element is formed according to step  300 .  
         [0017]     According to the above-mentioned description, the method of manufacturing micro-structure elements by utilizing molding glass of the invention can be applied to various micro-structure elements having different materials. The details description is illustrated as follows.  
         [0018]      FIGS. 2A  to  2 D are schematic views, which show steps of the method of manufacturing micro-structure elements by utilizing molding glass as disclosed in the first embodiment of the invention.  
         [0019]     Please refer to  FIG. 2A . By using photo-lithography technology, the photo-resist material is formed on a substrate  20 . After exposure and developing processes, the photo-resist material is transformed to a photo-resist layer  10  by a mask (not shown). The photo-resist layer has a micro-structure pattern thereon.  
         [0020]     Please refer to  FIG. 2B . By using electroforming technology, the electroforming material is formed on the substrate  20 . Hence, the micro-structure pattern on the photo-resist layer  10  is copied onto the electroforming material, which is transformed to a mold  40  according to step  100  in  FIG. 1 . The micro-structure pattern on the mold  40  is preferred to create a prominence.  
         [0021]     Please refer to  FIG. 2C . By using a glass molding machine (not shown), the mold  40  is imprinted on a glass structure  50 . The micro-structure pattern is thus copied onto the glass substrate  50 .  
         [0022]     Finally, please refer to  FIG. 2D . The clothing material  60  is coated on the glass substrate  50 . That is, the clothing material  60  is filled in the micro-structure pattern of glass substrate  50 , wherein the micro-structure pattern is preferred to create a recess. The micro-structure element  70  is thus made according to step  300  in  FIG. 1 .  
         [0023]     Please refer to  FIGS. 3A  to  3 F, which are schematic views showing the steps of manufacturing molding glass as disclosed in the embodiment of the invention described above. The steps include putting the mold  40 , the glass substrate  50 , and an upper die  80  into a die ring  90  according to  FIG. 3A . Also, the temperature of the whole die set, which comprises the upper die  80  and the die ring  90 , is raised according to  FIG. 3B . This means that the mold  40  and the glass substrate  50  are heated at the same time. When the temperature of the die set approaches a specific degree, heat stress is brought on the upper die  80  according to  FIG. 3C . The die set is then cooled down according to  FIG. 3D . Finally, the upper die  80  is released from the die ring  90  when the temperature of the die set is cooled down to atmospheric temperature according to  FIG. 3E . The glass substrate  50  having the micro-structure pattern is completed according to  FIG. 3F .  
         [0024]      FIGS. 4A  to  4 D are schematic views that show steps of the method of manufacturing micro-structure elements by utilizing molding glass as disclosed in the second embodiment of the invention.  
         [0025]     This embodiment is a method of manufacturing a substrate with a micro-structure pattern thereon by utilizing an etching process. First, photo-resist material is formed on a substrate  21 . After exposure and developing processes, the photo-resist material is transformed to a photo-resist layer  11  by a mask (not shown) according to  FIG. 4A . Perform an etching process on the photo-resist layer  11  by etching solvent according to  FIG. 4B . After removing the photo-resist layer  11 , the substrate  21  having a micro-structure pattern, which includes several recesses, is formed according to  FIG. 4C .  
         [0026]     Please refer to  FIGS. 4D  to  4 F. Therein the same processes as in the first embodiment are used. Electroforming technology is used to form a mold  41  having a micro-structure pattern thereon according step  100  in  FIG. 1 . The micro-structure pattern on the mold  41  is preferred to create a prominence. Then, the mold  41  is imprinted on a glass structure  51 . The micro-structure pattern is thus copied onto the glass substrate  50  according to step  200  in  FIG. 1 . Finally, the clothing material  61  is coating on the glass substrate  51 . The clothing material  60  is filled into the recesses of the micro-structure pattern of the glass substrate  51 . The micro-structure element  71  is made according to step  300  in  FIG. 1 .  
         [0027]     The micro-structure pattern as disclosed in the first and the second embodiments is an optical wave guide structure pattern. The polymer material is also used as a clothing material. The micro-structure pattern such as an optical wave guide structure is formed on the substrate by using a photo-lithography process. The micro-structure pattern is transformed onto a mold, which can be metal, by using an electroform method. After performing the molding glass process, the micro-structure element such as an optical wave guide element is formed.  
         [0028]     The micro-structure pattern of the invention can approach nano-scale, so it is can be applied to manufacturing nano-scale elements.  
         [0029]     Moreover, please refer to  FIGS. 5A  to  5 H, which are schematic views showing steps of the method of manufacturing a micro-structure element by utilizing molding glass as disclosed in the third embodiment of the invention.  
         [0030]     Please refer to  FIG. 5A . By using a photo-lithography process, such as photo lithography or electron beam lithography, photo-resist material is formed on the substrate  22  and then transformed to a photo-resist layer  12  after exposure and developing processes by a mask or e-beam direct writer (not shown). The photo-resist layer  21  has a micro-structure pattern thereon.  
         [0031]     Refer to  FIG. 5B . By using electroforming technology, a mold  42  having a nano-scale micro-structure pattern is formed according to step  100  in  FIG. 1 . In this embodiment, a film can be formed on the mold  42  by using an electroplating process, evaporating process, or sputtering process. The material of the film is noble metal material or nitride. This improves the life-time of the mold  42 .  
         [0032]     Please refer to  FIG. 5C . By using a glass molding machine (not shown), the mold  42  is imprinted on a glass structure  52 . Therefore, the micro-structure pattern is copied onto the glass substrate  52 . The glass substrate  52  having a micro-structure pattern is thus formed according to step  200  in  FIG. 1 .  
         [0033]     Refer to  FIG. 5D . The clothing material  62 , which is applied to a nano-scale element, is coated on the surface of the glass substrate  52 . The above-mentioned coating method is performed so as to from polymer material on the glass substrate  52 , or to form the metal material on the glass substrate  52  by using a sputtering machine (not shown). The clothing material  62  is composed of semi-conductor material or ceramic material.  
         [0034]     Finally, please refer to  FIG. 5E . The clothing material  62  is ground to remove redundant parts by using a chemical etching process, plasma etching process, or precise polish process. The micro-structure element is thus formed, and is applied to manufacture nano-scale elements.  
         [0035]     To sum up the above description, the invention provides a method of manufacturing micro-structure elements by utilizing molding glass. Although the processes comprise a photo-lithography process and electroform method to form a mold for imprinting, the rear processes comprise glass molding technology that not only maintains the precision of the manufacturing process, but also allows the benefit of mass production. Moreover, it can also be applied to manufacturing optical communication elements, optical wave guide integrated elements, and even nano-scale elements.  
         [0036]     Furthermore, the invention has the advantage of imprinting technology, which allows for excellent precision. There are very few errors in duplicating the micro-structure elements. Thus, the invention is more helpful for mass production than the prior technology, which only utilizes photo-lithography.  
         [0037]     The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are intended to be included within the scope of the following claims.