JPS61244543A - Polyacetylene film and manufacture thereof - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention (Industrial Field of Application) The present invention is an acetylene high polymer produced by polymerizing acetylene, which can be made into a conductive part by doping with a doping agent and used for electrodes of secondary batteries, etc. In particular, it relates to film-like polyacetylene and its manufacturing method.

(Prior art) Conventionally, when trying to obtain such film-like polyacetylene, it has been done either by pressure molding a powdered acetylene polymer or by applying a polymerization catalyst solution to the surface of a solid material such as glass. A method has been taken in which a fibrous film is obtained on the surface of the solid material by applying acetylene to the solid material, and this is peeled off to produce an acetylene high polymer product.

However, since the former method described above is made into a film shape by applying pressure, it is not only difficult to operate, but also has the disadvantage that only molded products with low mechanical strength can be obtained. Although those using polymerization catalysts have higher mechanical strength than the former, they cannot provide satisfactory strength.

In addition, when using the manufacturing method described in 1-2.

Because we will be using the inner wall of the crow container.

This not only makes the layer thickness of the polymerization catalyst that arrives non-uniform, resulting in non-uniform film thickness of the resulting acetylene polymer, but also makes it difficult to obtain a large polyacetylene film. Various defects exist in the product itself and the manufacturing method, such as being unsuitable for continuous manufacturing and not suitable for mass production.

(Problems to be Solved by the Invention) The first invention of the present application, in view of the conventional difficulties, does not attempt to obtain a film-like product using only polyacetylene as in the past, but instead attempts to obtain a film-like product using only polyacetylene, a thin film with breathable properties. By using a filter film as a backing base material and integrally laminating poly and acetylene sheets on the porous base material, it is easy to handle and sufficient for manufacturing and use. The aim is to provide high mechanical strength.

In the second invention, when producing such a polyacetylene film, the above-mentioned filter film is placed inside a reaction tank, which is a desired container, and after coating the film with a polymerization catalyst solution, acetylene gas is supplied to the reaction tank. This makes it possible to make the coating uniform in thickness, thereby making it possible to obtain products with uniform thickness.In addition, by adopting a mechanism that rotates and winds up the filter film, it is possible to continuously produce fairly large products. Its purpose is to enable production.

(Means for Solving the Problems) In order to achieve the above object, the present invention provides a polyacetylene film in which a polyacetylene sheet produced by polymerization of acetylene gas is integrally formed on at least one surface of a filter film. In the second invention, a filter film is arranged in a reaction tank kept in an inert atmosphere and at a low temperature, and one or both surfaces of the filter film are made of a transition metal compound and an organometallic compound. After coating with polymerization catalyst,
The present invention aims to provide a method for producing a polyacetylene sheet in which acetylene is supplied into the reaction tank.

(Function) Since the filter film is integrally formed with acetylene by polymerization, the degree of integration, that is, the adhesive strength, is also high, and since the polyacetylene sheet is backed by the filter film, its mechanical strength is also high. As a whole, by using the filter film, a large surface area can be secured, and desirable characteristics can be provided as an electrode.

Furthermore, in the manufacturing method, the polymerization catalyst is easily attached to the filter film by dipping or other desired means,
Moreover, the catalyst coating is formed to have a uniform thickness, and as a result, the polyacetylene sheet can also be formed to have a uniform thickness, and at this time, sufficient adhesive strength of the polyacetylene sheet to the filter film can be obtained.

(Example) To describe the present invention in detail with illustrations, the polyacetylene film according to the first invention of the present application is made of polypropylene, nylon, polyethylene, Teflon, glass, etc., as shown in FIG. A polyacetylene sheet 2 produced by polymerization of acetylene gas is laminated on both sides or one side of a filter film 1 which is made breathable through holes 1a.

Here, as the above-mentioned filter film l, for example, a film with a thickness of about 100 μm and a pore diameter of about 0.2 to 0.4 color m can be used, and the total thickness of the product should be about 0.05 μm or more. However, if the thickness exceeds 2.0 mm, it will be difficult to fully utilize the properties of polyacetylene as a conductive component.

Next, the second invention relating to the method for manufacturing the above-mentioned product will be described in detail. For carrying out the method, an apparatus as shown in FIG. 2 can be used.

This apparatus includes a reaction tank 4 installed in a low-temperature thermostat 3, and a coating rotation device 5 with a driving pulley 5a and a driven pulley 5b arranged vertically in the reaction tank 2. An endless filter film 1 is interposed between the pulleys 5a and 5b so that it can be attached and detached.Therefore, to enable this operation, a low-temperature constant temperature bath 3 and a reaction layer 4 (not shown) are attached to the pulleys 5a and 5b. An operation port that can be opened and closed is provided at a suitable location.

Further, an acetylene introduction pipe 6, an inert gas introduction pipe 7, a polymerization catalyst introduction pipe 8, and a gas loss pipe 9 are connected to the reaction tank 4, and these pipes 6.7.8.9,
Opening/closing locks a, 7a, 8a, and 9a are respectively interposed in the opening/closing holes.

Therefore, in order to carry out the method of the present invention using the apparatus described in -1-, the opening/closing mechanism a, 9a is opened, and the polymerization catalyst A consisting of a transition metal compound and an organometallic compound is supplied from the polymerization catalyst introduction pipe 8. Then, the required amount of the catalyst A is stored and stored in the reaction tank 4, but at this time, the filter film 1 is set in advance on the coating rotating device 5 as described above.

Next, by opening the opening/closing cocks 7a and 9a, an inert gas such as NZ is sent into the reaction tank 4 from the inert gas introduction pipe 7 to create an inert gas atmosphere in the tank, and the low-temperature thermostat 3 The polymerization catalyst is cooled to -78°C.

Here, the polymerization catalyst includes triethylaluminum 3, cylindrical, titanium tetrabutoxy white, 9+nQ, and toluene 15.1 m9. A mixture of these is used.

Next, while operating the coating rotation device 5,
The opening/closing cock 8a is opened to introduce acetylene gas into the reaction tank 4 from the acetylene introduction pipe 6. At this time, the filter film 1 is immersed in the stored polymerization catalyst A, and then rises by 1. In this case, both sides of the film 1 are successively coated with a polymerization catalyst, and therefore, a polyacetylene sheet 2 is produced and laminated by polymerization of acetylene gas at the location coated with the polymerization catalyst.

Once the polyacetylene sheet 2 is formed over the front surface of the endless filter film 1 in this way, it is washed with toluene and vacuum dried to form a product.

Here, to give a more specific example, the polymerization catalyst is cooled to -78°C as described above, and a pore diameter of 0.4 pLm is placed in the secondary formation hole 1a with a thickness of 1100 p. A filter film 1 made of polypropylene was immersed and pulled up, and immediately after this, acetylene gas was introduced into the reaction layer 4.

As a result, a polyacetylene film was formed on both sides of the polypropylene, which was washed with toluene and vacuum dried to obtain a polyacetylene film with a total thickness of 300 pLm.

In addition, a product was obtained using a nylon filter film with a thickness of 100 μm and a pore size of 0.2 Bm in the same manner as in Example L, but the polyacetylene sheet formed in both cases adhered well to the filter film, It also had mechanical strength and was not easily damaged.

(Effect of the invention) When using the polyacetylene film of the first invention, the polyacetylene film) is produced in close contact with the porous filter film, so it does not peel off easily and is mechanically strong, so the manufacturing process thereof ” 2. It is also very convenient to use and handle.

Further, according to the manufacturing method of the second invention, it is possible to manufacture a polyacetylene film of uniform thickness, and it is also possible to continuously manufacture a film with a large area, thereby making it possible to reliably mass-produce the film of the first invention.

In addition, in order to coat the filter film with a polymerization catalyst, the method is not limited to the above embodiments, and a spray device may be provided in the reaction tank to spray the catalyst.

[Brief explanation of the drawing]

FIGS. 1(a) and 1(b) are sectional views of different examples of the polyacetylene film of the first invention, and FIG. 2 is a longitudinal sectional front view showing a manufacturing apparatus that can be used to carry out the method of the second invention. It is. 1... Filter film 2... Polyacetylene sheet 4... Reaction tank A... Polymerization catalyst agent Patent attorney Yoshio Saifuji Figure 1 ('L) (b) Figure 2

Claims (5)

[Claims] (1) A polyacetylene film characterized in that a polyacetylene sheet produced by polymerizing acetylene gas is integrally formed on at least one surface of the filter film. (2) The filter film uses polypropylene, nylon, Teflon, and glass, and has a total thickness of 0.05 m.
The polyacetylene film according to claim 1, which has a diameter of m to 2.0 mm. (3) The polyacetylene film according to claim 1 or 2, wherein the filter film has a thickness of about 100 μm and a pore diameter of about 0.2 μm to 0.4 μm. (4) A filter film is placed in a reaction tank maintained at a low temperature in an inert atmosphere, and one or both sides of the filter film are coated with a polymerization catalyst consisting of a transition metal compound and an organometallic compound. A method for producing a polyacetylene film, characterized in that acetylene is supplied into the reaction tank after the reaction. (5) Coating with the polymerization catalyst is done by rotating the filter film and immersing it in the polymerization catalyst provided in the reaction tank.
The method for producing a polyacetylene film according to claim 1, which is carried out by pulling it up.