Method for forming imprinting roller
The invention relates to a forming method for imprinting roller. A photoresist layer is coated on an aluminum roller with cylindrical surface. After a pattern is transferred on the photoresist layer, the photoresist layer with the pattern is formed on the aluminum roller. Then the anodic oxidization treatment conducted for the photoresist layer with the pattern on the aluminum roller. Repeat the above-mentioned steps to obtain the roller with nanopore structure. When the roll-to-roll process is applied, the motherboard of roller with arbitrary size can be formed to facilitate the transfer printing of large area.
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1. Field of the Invention
The invention relates to a method for forming imprinting roller, particularly to a method for forming nano-imprinting roller.
2. Description of the Prior Art
The imprinting technology has been evolved from microimprinting to nano-imprinting. In recent years, different processes have been developed successively. For example, in the photoresist coating technology, the structure on the flat motherboard is printed on the photoresist layer of substrate, and then it is cured by ultraviolet radiation. However, this process is time consuming, and the size of product in limited by the dimension of motherboard. Thus, the fast and continuous production is unable to be achieved.
In addition, in another example, the structure is formed on the roller by roller imprinting, or wrapped by thin metal sheet with micro-structure, or formed by the molding process, and then the structure is transferred onto substrate.
The roller microimprinting has the advantages of fast process, mass and continuous production, its importance is increased day by day, wherein the formation or roller is the key technology. Most rollers with micro-structure need very expensive equipments, and the process is very tedious. However, as for the roller wrapped by thin metal sheet normally, the adherence of thin metal sheet will not be very close and tight. Thus, the problems such as mold displacement, warping and the like during imprinting will be occurred usually. There are problems such as insufficient strength and high-temperature deterioration during imprinting for the flexible roller formed by the molding process.
In addition, the anodic oxidization treatment is required to be conducted for microimprinting roller. The micropores or nanopores can be formed on the surface of aluminum by the anodic oxidization treatment. But because the anodic oxidization treatment needs a uniform electric field, so the micropores or nanopores will not be easy to be formed on the curved surface of cylinder or roller.
Therefore, in order to get better and more efficient nanoimprinting technology, it is necessary to develop the innovative nano-imprinting method to raise the efficiency, reduce the fabrication time and cost.
SUMMARY OF THE INVENTIONThe invention provides a method for forming imprinting roller. The anodic oxidization treatment of aluminum is employed to produce the roller mold with tight adherence.
Moreover, the invention provides a method for forming nano-imprinting roller, wherein the micro or sub-micro structure is generated on the surface of aluminum roller. It can solve the problem of flexible roller formed by the molding process, in which the surface structure is easy to be peeled off.
According to the above-mentioned description, as a method for forming nano-imprinting roller, an aluminum roller with cylindrical surface is provided, a photoresist layer is coated on the cylindrical surface, then a pattern is transferred onto the photoresist layer; the part of photoresist layer is removed to form the photoresist layer with pattern on the cylindrical surface; and an anodic oxidization treatment is carried on the aluminum roller with patterned photoresist layer. Repeat the above steps to obtain the nano-imprinting roller with nanopore structure.
Therefore, the advantage and spirit of the invention can be understood further by the following detail description of invention and attached Figures.
The foregoing aspects and many of the attendant advantages of this invention will become more readily appreciated as the same becomes better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:
The method for forming imprinting roller as shown in
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The invention utilizes a limited area on the surface of roller or a defined local area which is exposed in the anodic treatment tank. The anodic oxidization treatment is carried on for the limited area or the defined local area to form the micropores or nanopores on the surface of roller. Due to it is not easy to control the electric field, thus the area can be divided into several parts for the anodic treatment. After the treatment, all parts with micropores or nanopores are combined to cover the defined area or full area on the surface of roller.
According to the above description, the anodic oxidization treatment of aluminum is applied. Thus, it is not necessary to use expensive equipment to fabricate the imprinting roller of the invention and it is not time-consuming. The large-area nanopore structure can be formed on the surface of cylinder to overcome the loose adherence of traditional thin metal sheet wrapping and the defect of conventional molding process. The roll-to-roll production process can be applied for the fabrication of optical elements, in order to carry out fast and continuous transfer printing production on the flexible board, such as PET, PC or photoresist agent.
It is understood that various other modifications will be apparent to and can be readily made by those skilled in the art without departing from the scope and spirit of this invention. Accordingly, it is not intended that the scope of the claims appended hereto be limited to the description as set forth herein, but rather that the claims be construed as encompassing all the features of patentable novelty that reside in the present invention, including all features that would be treated as equivalents thereof by those skilled in the art to which this invention pertains.
Claims
1. A method for forming imprinting roller, comprising:
- providing a conductive roller having a cylindrical surface;
- forming a patterned photoresist layer on the cylindrical surface; and
- carrying out an anodic oxidization treatment for the conductive roller having the patterned photoresist layer to form the imprinting roller.
2. The method according to claim 1, wherein the forming the patterned photoresist layer on the cylindrical surface, comprising:
- coating a photoresist agent on a cylindrical surface;
- transferring a pattern onto the photoresist agent; and
- removing a part of photoresist agent from the transferred pattern.
3. The method according to claim 2, wherein transferring the pattern onto the photoresist agent comprises kept in a self-rotating motion at a constant speed upon the transfer treatment of pattern.
4. The method according to claim 1, wherein carrying out an anodic oxidization treatment comprises placing the conductive roller having the patterned photoresist layer in a reaction equipment, in which the conductive roller being set on an anode of a power supply and a cathode being a graphite electrode.
5. The method according to claim 4, wherein the conductive roller having the patterned photoresist layer comprises kept in a self-rotating motion at a constant speed.
6. The method according to claim 4, wherein the graphite electrode moves up and down at a constant linear speed relative to the conductive roller, and a constant distance being kept between the conductive roller and the graphite electrode.
7. A method for forming a nanoimprinting roller, comprising:
- providing an aluminum roller having a cylindrical surface;
- coating an photoresist layer on a surface of the aluminum roller;
- transferring a pattern onto the photoresist layer;
- removing a part of the photoresist layer from the transferred pattern to form the photoresist layer with pattern on the cylindrical surface; and
- carrying out an anodic oxidization treatment for the aluminum roller having the patterned photoresist layer.
8. The method according to claim 7, wherein transferring the pattern onto the photoresist agent comprises kept in a self-rotating motion at a constant speed upon the transfer treatment of pattern.
9. The method according to claim 1, wherein carrying out an anodic oxidization treatment comprises placing the conductive roller having the patterned photoresist layer in a reaction equipment, in which the conductive roller being set on an anode of a power supply and a cathode being a graphite electrode.
10. The method according to claim 9, wherein the aluminum roller having the patterned photoresist layer comprises kept in a self-rotating motion at constant speed.
11. The method according to claim 10, wherein the graphite electrode moves up and down at a constant linear speed relative to the aluminum roller, and a constant distance is kept between the aluminum roller and the graphite electrode.
Type: Application
Filed: Mar 26, 2010
Publication Date: Jun 9, 2011
Applicant: National Taiwan University (Taipei)
Inventors: Sen-Yeu Yang (Taipei), Tzu-Chien Huang (Taipei), Jing-Tang Wu (Taipei), Hsin-Chun Lai (Taipei), Ying-Ta Chu (Taipei)
Application Number: 12/659,971
International Classification: C25D 5/02 (20060101);