TWI320025B - Glue band having a nanometer-level carbon material and method for making the same - Google Patents

Description

1320025 IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to a nano-tape tape and a method of manufacturing the same,

The carbon tube is made of the sand method. Series U [Prior Art] Carbon atoms have good bonding properties, and the outer electrons can form different hybridizations. Γ 可 Ke can form a well-structured Jinlin and graphite, and can also form a rich adsorption and amorphous. Porous carbon. The pore system of the traditional porous carbon is mainly composed of the structure of the bean, and the pores of the structure are completely different from the pores of the structure. Therefore, the pore-forming process and the final H knot _ Yu Pu. New in the carbon family (IV) - It is possible to form a completely regular pore structure in the structure. Nano carbon tube is a new type of carbon structure discovered in 1991. It is made of carbon atom shape and graphite. It is seamless and can be divided into single-walled carbon nanotubes (ingle-walled Carton Nanotube). ) Caixian rice carbon f (Multi_walled

Carbon N thin tube). - The average single (four) meter carbon tube is Q 4~2 nanometer, the diameter of the carbon tube is not more than 50 nanometers, and the length can be several micrometers to several millimeters, because: there is a great aspect ratio , is a quasi-one-dimensional nanowire. Eight nanometer carbon %•' system single-walled nanocarbon #, because the carbon atoms of the county are basically at the surface position, it has a large specific surface area. Theoretical calculations show that the surface area of the carbon nanotubes can vary from 5G to 1315mVg. The surface area of a single-walled carbon nanotube is larger than that of a multi-walled carbon nanotube. Since there is a smooth, straight hollow tube in the middle of the single-walled carbon nanotube, the density is quite low, only 〇 6g/cm3, with regular nano-scale pores. The density of multi-walled carbon nanotubes varies with their structure, between 2 and 3. In the micro-gambling structure of the carbon nanotubes on the scale of the carbon nanotubes, the carbon nanotubes have a gas adsorption capacity close to the ‘!’, which has a strong adsorption effect on other atoms and molecules. - However, in recent years, the research on the gas absorption of carbon nanotubes has mainly focused on the hydrogen storage performance of nanocarbons and the examination of carbon nanotubes. Judging by the continuous development of science and technology, Yueyuan and Libao have gradually become the theme of world development. Among them, environmental protection has become an important issue in the current development of 5 1320025. 'Development requirements. At the same time as the rapid development of Meiji, it is necessary to protect the environment on which humans depend. β x In view of this, A nano-tape having an air purifying effect using a carbon nanotube and a method for producing the same are necessary. ~ [Explanation] Hereinafter, a nano tape having an air purifying effect will be described in several embodiments. And a method for producing a nano tape having an air purifying effect. For the above-mentioned inner valley, a nano tape is provided, which comprises: a double-sided tape, the double-sided tape has double-sided adhesiveness; and a high-temperature resistant film, which is disposed on one side of the double-sided tape 1 and The layer of carbonaceous material is disposed on the other side of the double-sided tape, and the layer of nanocarbon material includes a carbon nanotube, a carbon sphere, or a mixture of the two. And a method for manufacturing a nano-belt, comprising the steps of: providing a substrate to form a layer of nano-carbon material on the substrate; and adhering a double-sided adhesive tape having double-sided adhesiveness to the surface The carbonaceous material layer is disposed on the other side, and the high temperature resistant film is used to remove the substrate to obtain a Neihui belt, and the nanocarbon material layer comprises a nanocarbon f, a nanocarbon sphere or a mixture of two. The technical tape solution provided by the technical solution and the method of silk production are processed on the belt, and the nano carbon material layer growth technology which is already very mature is used, and the method is simple and strong. The nanometer tape obtained by the method of the invention has a very strong gas adsorption capacity of a nanocarbon material layer such as a carbon nanotube, and can widely adsorb hydrogen, hydrocarbons and free radicals in the air in the application, @能能财Effectively purify the Weiqian space atmosphere and adapt to the current environmental protection requirements. [Embodiment] Please - and refer to the first to fifth figures, the technical solution provides a method for manufacturing a Qin tape, comprising the steps of: providing a substrate u having a clean polishing surface, the substrate u being disposed on a base The cleaning and polishing surface of the base 11 can be cleaned by the surface of the substrate U and then polished to remove the H, which is a carbon nanotube or a nano carbon sphere. The substrate material is turned into a glass, and other materials, such as ruthenium, quartz, etc., in the present embodiment, the thickness of the glass substrate 11 of 6 1320025 is 〇·3 mm or less. The polished surface of the carbon nanotube to be grown is uniformly formed on the substrate 7 of the 6th layer - the catalyst layer 12'. The formation of the catalyst 12 can be completed by thermal deposition, electron beam deposition, and vapor deposition. The material of the catalyst layer 12 is iron, and other materials, alloy materials of any combination of nickel, iron or iron, and nickel and nickel may be used. The nano-carbon material layer 13 of the mountain growth intensity is on the catalyst layer 12 of the substrate 11, and the nano-material layer 13 comprises a nano carbon t, a nano carbon sphere or a mixture of the two, the nano carbon The tube comprises a walled carbon nanotube, a multi-walled nanocarbon f or a mixture of the two. Provided - double-sided tape 14 having double-sided adhesiveness and double-sided heat resistance

Protective film 16. The double belt 14 is peeled off and the face is protected, and the base 1 is heated on the nano carbon material layer 13 to enhance the adhesion of the nano carbon material layer a to the double-sided tape μ. The substrate 11 is removed from the susceptor 10 together with the nano-carbon material layer 13 and the double-sided tape 14, and the substrate u and the catalytic contact 12 are chemically removed. The specific method comprises: using carbon tetrafluoride (4) to destroy the surname of the hydrogen (10) solution and removing the substrate u; immersing the surface tape 14 in the diluted acid solution to remove the catalyst layer 12; and leaving the remaining double-sided adhesive π 14 and the non-face material layer 13 is cleaned after washing, and the technical solution of the present invention is obtained.

The nanometer turn 15 of the present technology includes a double fabric 14, and the double-sided tape 14 has double impurities. The double-sided tape is provided with a _ high temperature protection film 16 which can be torn during application (10) of the nano material 15_ on the predetermined material, and a nano carbon material layer 13 is formed on the other surface, the nano carbon material Layer 13 has a very strong gas absorption and can be used to attach helium, hydrocarbons and free radicals in the air. It should be understood by those skilled in the art that the formation of the nano-carbon material layer in the manufacturing method of the nano-adhesive tape of the technical solution is actually a chemical vapor deposition method, and the nano-carbon material layer only needs to be applied to the nano-adhesive tape of the technical solution. The gas adsorption capacity may be formed by using other methods such as arc discharge method, #射烧触, etc. to form a nano-breaking material layer such as a carbon nanotube on the surface of the substrate. The nano tape of the technical solution and the manufacturing method thereof are processed on the traditional winning belt, and 7 1320025 utilizes the currently mature nano carbon material layer growth technology, and the method is simple and controllable. The nano-adhesive tape obtained by the method of the invention can utilize the nano carbon material layer such as nano carbon carbon to have a strong gas adsorption capacity, and can widely adsorb hydrogen, carbon compounds and free radicals in the air in the application, thereby being effective Purify the environment and the space atmosphere to meet the environmental requirements of expanding and expanding. In summary, the present invention complies with the requirements of the invention patent and submits a patent application according to law. The above description is only the preferred embodiment of the present invention, and equivalent modifications or variations made by those skilled in the art will be included in the following patents.

BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic flow chart of a method for manufacturing a nano tape of the present technical solution. The second aspect is a schematic diagram of the present technical solution forming a layer of nano carbon material on the surface of the substrate. The third figure is a schematic view of the double-sided tape adhered to the nano-carbon material layer formed in the second figure. The fourth line is a schematic view of the base of the third figure together with the double-sided tape. The fifth figure is a schematic diagram of the nano tape obtained by the technical solution.

[Main component symbol description] Base 10 Base 11 Catalyst layer 12 Nano carbon material layer 13 Double-sided tape 14 Nano tape 15 Protective film 16 8

Claims (1)

1320025 X. Patent application scope: 1. A nano-adhesive tape, comprising: a double-sided tape having double-sided adhesiveness; a high-temperature resistant film disposed on one side of the double-sided tape; The nano-carbon material layer is disposed on the other side of the double-sided tape, and the nano carbon material layer includes a carbon nanotube, a nano carbon ball, or a mixture of the two. 2. The tape measure as described in the scope of the patent application, wherein the carbon nanotube comprises a carbon nanotube, a single-walled carbon nanotube or a mixture of the two. 3. A method for manufacturing a nano-adhesive tape, comprising the steps of: providing a substrate; forming a layer of nano-carbon material on the substrate; and adhering a double-sided adhesive tape having a double-sided adhesiveness to the surface a carbon carbon material layer, and a high temperature resistant film on the other side; removing the substrate to obtain a nano tape, the nano carbon material layer comprising a nano carbon f, a nano carbon ball or a mixture of the two. The manufacturing method of the naphthalene belt, the method for forming the silk carbon material, includes a chemical vapor deposition method, a Wei discharge method or a laser burning method. ^ As described in the third application of the patent system The manufacturing method of the belt, wherein the further step comprises: forming a catalyst layer on the substrate. 6Tai +"^^利范®^5 The method for manufacturing the inner belt, wherein the towel is removed from the substrate to obtain a method without further tape The method comprises the following steps: removing the substrate by etching; removing the catalyst layer by using the diluted acid solution; and drying the remaining double-sided tape and the nano carbon material layer, and drying the method. Newcasting package Included in the invention, the raw material of the nano-belt, and the material of the nano-belt, as described in claim 8, Wherein the thickness of the substrate 9 I320 〇 25 is 毫米. 3 mm or less. The catalyst sealing material, wherein the catalyst layer, the method of manufacturing the nano-belt described in the fifth item, has a cobalt, nickel Or an alloy of any combination of three kinds of materials: iron, cobalt, and nickel. 11 . The method for forming a nano tape according to the first aspect of the invention includes thermal deposition, electron beam deposition, evaporation, or sputtering.