DE2024863B2 - - Google Patents

Description

70 II thickness, it was charged to 1000 volts. The intermediate layer prevents the creation of a residual potential.

Since the photosensitive plate according to the invention can be charged positively or negatively. can not only make positive copies of a positive original, but also negative copies of one negative original can be obtained in which toner of the same polarity is jetted. That will be the same The problem of the residual potential has been completely eliminated.

According to one embodiment of the invention it is achieved that an intermediate layer made of selenium through Vapor deposition applied in vacuo and the substrate during the vapor deposition of the intermediate layer is kept at a temperature of 60 to 75 ° C.

Preferred exemplary embodiments of the invention are described below with reference to the drawings explained.

1 shows a schematic representation of the structure of an electrophotographic recording material according to the invention:

Figs. 2 and 3 are diagrams for explaining the properties of electrophotographic recording materials according to the invention.

Reference is now made to FIG. 1. An intermediate layer 2 is formed on a layer carrier 1, which is formed by vapor deposition of amorphous Selenium, gold or platinum was produced in a vacuum while the substrate was at one temperature from 60 to 75 ° C. On the intermediate layer 2 is a photoconductive insulating Layer 3 made by vacuum evaporation, which mainly consists of amorphous sefen exists while the temperature of the base 1 is maintained at 20 to 40 ° C.

The electrophotographic recording material thus obtained can be charged positively or negatively and has a residual potential of 0 to 20 V. Even after the electrophotographic recording material is repeatedly charged and exposed has been subjected, there is no residual potential. Especially when the electrophotographic Recording material is positively charged, there is no residual potential.

Some exemplary embodiments of the invention are described below.

Example I.

A. On an aluminum plate, the surface of which had been well polished by a machine, gold was evaporated to a thickness of about 50 Å using a molybdenum pan ^{in a vacuum of 5-10 ~ s mm Hg.} Then selenium with a degree of purity of 99.99% was evaporated in a vacuum to a thickness of about 70 μ while the substrate was kept at 30 ° C. The distance between the selenium evaporation source and the substrate was 30 cm: the vacuum was 1 x 10 ~ ⁴ mm Hg; the vapor deposition time was 40 minutes.

B. For comparison, selenium was applied to a clean aluminum plate with an oxide layer of about 100 Å. The electrophotographic recording material thus obtained was negatively charged by means of needle electrodes at a corona current of 3.5 µA and then subjected to a decay (dark discharge) for 15 seconds. This was followed by exposure to a 10 lux tungsten lamp with a color temperature of 3000 ° K for one minute. The above-described charging and exposure steps were cyclically repeated to measure the change in surface potential. The results are shown in Figs. Fig. 2 shows the relationship between the initial potential! and the number of cyclically repeated charging and exposure, while Fig. 3 shows the relationship between the residual potential and the number of cyclically repeated charging and exposure. The curve a indicates the characteristic of the electrophotographic recording material A in Example I which has the substrate, the gold layer and the selenium layer. The curve b indicates the characteristic of the electrophotographic recording material B with the aluminum oxide thin film. From Fig. 2 it can easily be seen that the electrophotographic recording material A has a tendency that its initial potential drops slightly. This means that the electrophotographic recording material A can maintain a sufficient charge for development.

As described above, must. hence an electrophotographic recording material has a lower dark discharge or a lower decay process, an intermediate layer between the substrate and the photoconductive insulating layer are provided. In the case of the electrophotographic Recording material B has this intermediate layer, and this recording material B tends to have the surface potential drops to 90% within 15 seconds, while in the case of the electrophotographic Recording material A drops to 50%. When the electrophotographic recording material is used for rapidly repeated work steps, there are no problems in practice tainted even if the intermediate barrier layer is not provided.

As can be seen from Fig. 3, the electrophotographic recording material B shows a tendency to assume a growing residual potential when the number of charging and exposure processes was increased. On the other hand, the electrophotographic recording material A shows a great deal low residual potential of 0 to 10 V, and the increase in residual potential was almost negligible

Example II

C. A platinum wire was twisted with a tungsten wire to vaporize platinum, and the vaporized platinum was deposited on a clean aluminum plate to a thickness of about 250 Å. The properties of the electrophotographic material thus obtained are indicated by curves c in Figs. As can be easily seen, the residual potential of the electrophotographic recording material C is very low.

Example III

D. On a well-polished copper plate, selenium was grown to a thickness of about 2 α in a vacuum

crushed by H) ^"4 mm Hg by using a tantalum tray, while the base was maintained at 60 ° C. Donach was cooled, the semi-finished product to about 30 ^c C, and then selenium was in a thickness of about 70 μ in the same manner as reflected in Example I. The properties of the electrophotographic recording material thus obtained are indicated by curves d in Figures 3 and 4. It can be seen that no residual potential could be detected at all.

In addition to aluminum and copper, other useful materials can be used as film supports be used.

1 sheet of drawings

Claims (2)

1 2 carries, the recording material can be charged positively, but claims: not negatively. In the case of the electro- 1. A process for the production of an electrophotographic recording material which is used in photographic recording material on a large scale, an intermediate layer is applied to a conductive layer on a substrate, the substrate has an extremely good insulation and a thin barrier layer is formed on the intermediate layer in the alternative the time kuum a selenium layer is evaporated to increase, during which the charging is maintained in the dark, and on the isolating support an intermediate layer of gold, io the barrier layer is a photoconductive isolating platinum or selenium applied and formed during the layer of amorphous selenium. As a blocking-vapor deposition of the selenium layer on the intermediate is layer is generally a thin aluminum oxide layer of the substrate used in layers to a temperature which is between 0 and 40 ^c C, preferably between surface of the conductive aluminum support 20 and 40 ° C, held by oxidation. 15 is obtained. Other thin layers can also be used 2. The method according to claim 1, characterized in that an intermediate layer of selenium is made from other useful insulating substances. zen such as polystyrene can be used. When applied by vapor deposition in a vacuum and the electrophotographic recording material of the substrate warning of vapor deposition, with the structure described above, the charge in the intermediate layer is exposed to a temperature between 20 and a light-60 and 70 ^: C is kept on it. a pattern of an original to be copied is projected, the charge is eliminated according to the original, so that the surface potential is lowered will "The surface potential sinks, however 25 does not fall below a certain value even if the photo continues to be on the electrophotographic Recording material is projected. That The invention relates to a method of production, that is to say, a charge remains on the electrophotolung an electrophotographic recording graphic recording material (so-called materials in which there is a residual potential of 30 on a layer substrate). The residual potential can almost be layered applied and neglected on the intermediate when the electrophotographic layer a selenium layer vapor-deposited in a vacuum recording material is positively charged, will. However, if the electrophotographic recording In xerography, the so-called xerography material is negatively charged, that is fish plate or the electrophotographic residual potential on the order of 50 to Drawing material in the dark by means of a corona 100 V. If the cascade development is applied discharge is positively charged, and it becomes a light, offers a residual potential »1 of this magnitude image projected onto the plate, making a positive voltage no serious problems. However, if that Charge pattern is formed. This charged electrophotographic recording material is like pattern is done with electrostatically charged image 40 derhoit relatively quickly generation particles, the so-called toner, is used in the cycle, the residual potency increases brought into contact. These particles become increasingly sticky, so that copied images are only slight ten in those areas that have an electrostatic contrast. Especially when positively charged remain and form an electrostatic toner that is used, the image will be distorted corresponding powder image. The 45 obtained in this way slides, resulting in poor quality copies, visible image is on a permanent image carrier, the object of the invention is to provide a method for such as paper. The electrophotographic production of an electrophotographic recording material w ^; rd, for example, to create by means of nungsmaterials, which can be positively or ne ■ cleaned with a soft brush, in order to be able to charge the remaining negatively and in which the toner can be removed for reuse. Habitual 50 occurrence of a residual potential is prevented.
Positive copies are borrowed from xerography. The subject invention proceeds from one received a positive submission. If a positive method of making an electrophotography charger Toner - is used, it is possible to see recording material in which on one Positive copies of a negative original are applied to the substrate and an intermediate layer produce. The problem then, however, is that the toner 55 must be continuously replaced with a selenium on the intermediate layer in a vacuum, in order for it to be positively evaporated onto the layer, off and thus charged to hold, and that the edge effect indicates that there is a conflict on the substrate is applied so that sharp images are not obtained a layer of gold, platinum or selenium can be. and during the evaporation of the selenium layer Therefore it is necessary that an electrophoto 60 the intermediate layer of the support on a Temgraphisches Recording material not only a temperature between 0 and 40 ° C, preferably between positive charge, but also a negative charge - 20 and 40 ° C. Charge must be maintained at a high potential so that the invention achieves that when the both positive and negative copies due to the temperature of the support in the range from 0 to The use of toner with the same polarity is 65 40 ° C, while the essentially amorphous can be. However, if the temperature selenium is evaporated, a positive or negative des of Japanese Patent Publication No. even charging to the same potential mög-873/9153 known layer carrier 60 to 75 ° is borrowed. If z. B. the photosensitive selenium layer