DE2306157C3 - Process for the production of an electrophotographic recording material - Google Patents

Description

The invention relates to a process for the preparation of an electrophotographic recording material in which a support having an electrically conductive layer provided and on the electrically conductive layer is a selenium and 0.5 percent by weight of arsenic-containing layer at a pressure of at most IO ⁴ Torr and a temperature of Layer support of 60 ° C is evaporated until a 60 μm thick photoconductive layer is obtained, characterized in that a metallic layer support with the aid of a suspension of carbon black in a solution of polyvinyl acetal in an electrically non-conductive solvent with a 1 -2 μm provided thick electrically conductive layer, the substrate with the electrically conductive layer is heated, cooled and then polished, and that the photoconductive layer is vapor deposited on the electrically conductive layer at a rate of 0.5 μm per minute.

According to the known xerographic process, an image can be produced by one with a photoconductive selenium layer covered rigid image plate or drum charged to an electrical potential and a charge distribution corresponding to the original image is generated by exposure. By a non-conductive electroscopic powder is used to make the image visible. This powder image is then put on a paper tape transferred and fixed on this.

From DT-OS 20 12 805 a method for producing an electrophotographic X-ray recording material, the photoconductive layer of which contains selenium, is known. As a result of the selenium coating on the X-ray exposure plate, the dark conductivity is too great, so that the charge, which is graphically distributed, can not be stored over a long period of time. According to the method, the selenium is doped with oxygen. The X-ray sensitivity can be increased considerably by means of such a selenium modification.

Lately one has started to do this as a porter The photoconductive selenium layer is a flexible, belt-like, metallic one instead of an image plate or drum Use foil, especially around the relatively large volume of working according to this method

decrease electrophotographic copier.

The selenium layer as a photoconductive layer is generally applied in such a way that the selenium evaporates in a vacuum and the vapor is condensed on the "cold" metal surface of the image plate or drum or film. The temperature of this "cold" surface is usually kept below 50 ^0C. In order to evaporate as much surface as possible in the unit of time, the evaporation rate has always been kept as high as possible.

From DT-OS 15 22 711 a method for producing a xerographic image plate is known in which a layer of gaseous selenium and small amounts of arsenic and the halogen iodine, bromine, chlorine or fluorine is applied to an electrically conductive base. This layer is deposited at a pressure of 5xlO ^"5 Torr and a temperature of the conductive pad of 70 ⁰ C until a 20 μιη to 80 μιη thick photoconductive layer is obtained.

The disadvantage here, however, is that the photoconductive layer is relatively brittle and subject to long-term stress in copiers especially not withstanding / when they are on flexible charge carrier foils is upset. This also applies in the same way to a photoconductive layer according to DT-OS 20 12 805.

The invention is based on the object of creating an electrophotographic recording material, in which in addition to an improvement in the photographic image quality, above all for it Care is taken that the relatively fragile selenium layer of the charge carrier plates or foils in Copier remains undamaged even with continuous use.

The object is achieved by the method according to the present invention, in which a metallic support with the aid of a suspension of carbon black in a solution of polyvinyl acetal in one electrically non-conductive solvent provided with a 1-2 μm thick electrically conductive layer, the Layer support with the electrically conductive layer is heated, cooled and then polished, and the photoconductive layer on the electrically conductive layer at a rate of 0.5 μm per minute is vaporized.

The method according to the invention is particularly suitable for charge carrier foils:

If, for example, a charge carrier film is guided around transport rollers in a copier and is accordingly bent, the selenium coating breaks after a short time and the film is unusable. Care must be taken to ensure adequate adhesion of the selenium layer, which is known to be relatively brittle, because the carrier film is guided around transport rollers in the copying machine and is bent there according to their diameter. An intermediate layer is therefore provided which, however, does not adversely affect the electrical and imaging properties of the selenium layer.

The method according to the present invention achieves excellent adhesiveness of the selenium layer , and as a result of the high surface smoothness of the intermediate layer, a very smooth selenium layer is obtained which, together with optimal vapor deposition conditions, improves the electrophotographic image quality, particularly with regard to its richness in contrast. By reducing the vapor deposition rate according to the invention

0.5 μιτι per minute can be much higher Achieve electrical charging potentials and also significantly improved properties with regard to the dark discharge the selenium layer.

Details of the invention are explained in more detail below for better understanding:

A conductive lacquer layer is sprayed as an intermediate layer onto a metal foil as a layer carrier in a dust-free room. This lacquer layer consists of polyvinyl acetal as a base material, which is mixed with a proportion of carbon black to increase conductivity and as a non-conductive solvent! Contains ethyl acetal and methanol. As a result of the dust-free environment, the surface of the paint layer is very even. The lacquer layer w> rd preferably applied to the metal foil in a thickness of 1 μm to 2 μm and has a conductivity of about 1.5 Siemens with a carbon black content of about 10% Maintained at a temperature of 150 ^° C. for 8 hours. After this tempering process and subsequent cooling, the lacquer layer is polished under pressure in order to increase the surface glass even more. Then the selenium layer is applied to this lacquer layer:

The selenium is evaporated at a pressure of at most about ΙΟ ' ⁴ Torr with a vapor deposition rate of about 0.5 μm per minute in a thickness of about 60 μm. During the vapor deposition process, the temperature of the substrate is kept constant at about 60 ° C. To prevent crystallization of the selenium layer, about 0.5 percent by weight of arsenic is introduced into the layer and selenium during the evaporation of the selenium.

Claims (1)

Claim: A process for producing an electrophotographic recording material in which a support having an electrically conductive layer provided and on the electrically conductive layer is a selenium and 0.5 percent by weight of arsenic-containing layer at a pressure not exceeding 10- ⁴ Torr and a temperature of the substrate of 60 ⁰ C is evaporated until a 60 μm thick photoconductive layer is obtained, characterized in that a metallic layer support with the aid of a suspension of carbon black in a solution of polyvinyl acetal in an electrically non-conductive solvent with a 1-2 μm thick electrically conductive layer provided, the substrate with the electrically conductive layer is heated, cooled and then polished, and that the photoconductive layer is evaporated onto the electrically conductive layer at a rate of 0.5 μΐπ per minute.