SU976422A1 - Method of electrostatic sensitizing o electrographic image medium having barrier base layer - Google Patents

Description

The invention relates to electrophotography and can be used in the manufacture of electrographic microfiches and slides.

Known electrostatic sensitization method elektrofotografi- ⁵ Cesky image carrier with the barrier sublayer by first applying electrical charges of one polarity, followed by discharging and forming a uniform illumination of the working surface of the capacity of its additional application of different polarity charges [1J.

A disadvantage of the known method 15 is that the presence of a barrier sublayer leads to the formation of a residual potential and to a decrease in the manifestation efficiency.

A rise of the invention is ²⁰ shenie quality by sensitization

To achieve this goal according to the method of electrostatic sensitization of an electrophotographic image carrier with a barrier sublayer by pre-applying electric charges of one polarity, subsequent charging with uniform lighting and forming, the working potential of its surface by additional application of charges of a different polarity, preliminary application of charges is carried out to a potential value not exceeding 30 -40% of its limit value, and the discharge is carried out with actinic light.

The drawing shows the structure of an electrophotograph from a carrier; a and b. - charge distribution c. an electrophotographic image carrier with a barrier sublayer while decreasing the residual potential on the barrier sublayer.

the pre-charge of the same polarity followed by the discharge of actinic light; c and d are the distribution of charges after charging in the duty cycle.

Where 1 is a dielectric film as a substrate; 2 - electric ₅ driving layer; 3 barrier dielectric sublayer; 4 - Photoconductor layer.

The essence of the invention lies in the fact that in order to improve the quality of sensitization of an electrophotographic medium by reducing the residual potential on the barrier sublayer, the pre-charging potential should be as much as the working potential is as many times as the total capacity of the photosensitive layer and the barrier sublayer is less than the capacity of the photosensitive layer. Nevertheless, the value of the pre-charging potential must not exceed the permissible value, since this leads to an electrical breakdown of the photosensitive layer.

Therefore, the accumulation of the required 25 charge density at the boundary of the photosensitive layer and the barrier sublayer is carried out in two or three stages, i.e. first, the deposition of charges is carried out to a potential value that does not exceed-; total (30 ** 0%) of its limiting value, and after uniform illumination with actinic light, the charge-discharge cycle is repeated.

Thus, the necessary charge density is accumulated at the boundary of the photoconductor and barrier sublayer, without resorting to the formation of a strong field in the photoconductor layer. ₄

The magnitude of the working potential is determined by the formula.

,, go)

and limit the range of 'ich) wasp ^ | and £ _and j to ^s and o "where the value of the residual U__ ~ Poten tial after pre-discharge reduced capacity;

οίη, οΐρ “thickness; ⁵ £ u, £ 6 dielectric permittivity of the semiconductor layer and the barrier dielectric sublayer, respectively (Г _о is the charge density of the working potential.

Example. An electrophotographic image carrier consisting of a lavsan substrate 1, an electroconductive layer 2 of nickel, a barrier sublayer 3 of a thickness of 1-1.5 μm and a photoconductor layer 4 based on poly-epoxypropylcarbazole with a thickness of 2.5 "3 μm, first charged with a positive charge up to 170 V, then discharged with actinic light · to a residual potential of 6 (1 V. After that, recharged to 220 V and again discharged with actinic light - A residual potential of 120 V. is formed. After that, the working potential is formed by additionally applying a negative body charge up to 140 V.

On the electrophotographic media sensitized by the proposed method, images with high contrast are obtained, and all possible defects that usually appear under the influence of a strong electric field on the layer are almost completely absent.

Claims (1)

(5) METHOD OF ELECTROSTATIC SENSITIZATION ELECTROPHOTOGRAPHY uniform illumination and the formation of the working potential of its surface add Target application of charges of another polarity A disadvantage of the known method is that the presence of a barrier sublayer leads to the formation of residual potential and to a decrease in the effectiveness of the manifestation. The aim of the invention is to improve the quality of sensitization by reducing the residual potential on the barrier sublayer. according to the method of electrostatic sensitization of an electrophotographic image carrier with a barrier sublayer by pre-applying electric ar rows of one polarity, charge posledukhchey uniform lighting and forming the working capacity of its surface by applying additional charge other polarity prior application of charges is produced to a value of capacity not exceeding its limit value, a discharge DKU is carried out with actinic light. The drawing shows the structure of the electrophotographic carrier; a and b. - distribution of charges in. an electrophotographic image carrier with a barrier sublayer during pre-application of charges of one polarity with the following: 3.9 discharge of actinic light; c and d - charge distribution after charge in the working cycle. Where 1 is a dielectric film as a substrate; 2 - electric power layer; 3 barrier dielectric sublayer; t - Aotope semiconductor layer. The essence of the invention is that in order to increase the quality of sensitization of an electrophotographic carrier by reducing the residual potential on the barrier sublayer, the potential of the preliminary charge must be greater than the magnitude of the operating potential as the total capacity of the photosensitive layer and the barrier sublayer is smaller photosensitive layer. However, the value of the precharge potential should not exceed the permissible value, since this leads to electrical breakdown of the photosensitive layer. Therefore, the accumulation of the required charge density at the boundary between the photosensitive layer and the barrier sublayer is carried out in two or three stages, i.e., first, the HaHccewHe charges are produced to a potential value not exceeding {) its limit value and after uniform illumination with active light a cycle charge-discharge is repeated. Thus, on the boundary between the Photopol of the conductor and the barrier sublayer, a charge density is necessary, without resorting to the formation of a strong field in the photoconductive layer. The magnitude of the working potential is determined by the formula. ffe («« Å & And limit within the limits from and - ostyu, to and O, where and. - the value of the residual potential after pre-charge; oi.n, atp - thickness; go - dielectric permeability of a photoconductive layer and barrier dielectric sublayer, respectively, d is the operating potential charge density. Example: electrophotographic image carrier consisting of a lacron substrate 1, an electrical wire 1 of a nickel 2 layer, a barrier sublayer 3 with a thickness of 1-1.5 µm and a photo-semiconductor layer t based on poly-W - epoxypropylcarbazole and 2.5–3 µm thick, is first charged with a positive charge to 170 V, then discharged with actinic light — to a residual potential of 60 V. After that, it is charged up to 220 V and again discharged with actinic light — a residual potential of 120 B, After which the working potential is formed by additional deposition of negative charge to B. Il, electrophotographic carriers, sensitized by the proposed method, receive images that are characterized by high contrast, and all possible defects that usually appear under Procedure layer on a strong electric field prak .ticheski completely absent. Claims The method of electrostatic sensitization of an electrophotographic image carrier with a barrier sublayer by pre-applying electric charges of one polarity, subsequent discharge by uniform illumination and forming the working potential of its surface by additional charging of another polarity, characterized in sensitization | by reducing the residual potential on the barrier sublayer, the preliminary deposition of charges takes place before the magnitudes of the potential not exceeding its limiting value, and the discharge is performed with actinic light. Sources of information taken into account during the examination 1. UK application, cl. fi 2 H, 197, the priority of Japan No. 70205, 1970. K + + 4- + + + + + ( L H-H- + -4- +