DE1234527B - Electrophotographic recording material - Google Patents

Description

GERMAN ^ X ^ S PATENT OFFICE

German class: 57 e -1 / 04-

EDITORIAL

Number: 1234527

File number: G 29184 IX a / 57 e

J 234 527 Filing date: March 5, 1960

Opened on: February 16, 1967

The invention relates to an electrophotographic recording material, in particular for production xeroradiographic images.

Electrophotographic recording materials composed of a non-metallic support, a Intermediate layer and a photoconductive layer with a dispersed in an insulating binder Photoconductors are known.

However, heretofore, the usability of such recording materials has been limited because they contain images with a veiled background. This is due to the poor electrical conductivity of the non-metallic substrate, because the discharge of electrical charges from the exposed parts of the image is delayed. A certain amount of charge remains, which attracts the toner and obscures the toner Images caused.

So far, there is no known electrophotographic recording material which directly provides haze-free images, can be produced economically and easily handled.

The object of the invention is to provide an electrophotographic recording material which can be produced economically and after charging, exposure, development and fixing without Transfer to an image receiving material provides fog-free images.

The subject matter of the invention is based on an electrophotographic recording material a substrate, an intermediate layer and a photoconductive layer with one in an insulating Binder dispersed photoconductor, whereby the electrical resistance of the binder is greater than that of the substrate and larger than that of the photoconductor, and is characterized by that the intermediate layer is an imidazoline of the formula electrophotographic recording material Applicant:

General Aniline & Film Corporation,
New York, NY (V. St. A.)

Representative:

Dr. W. Schalk, Dipl.-Ing. P. Wirth,
Dipl.-Ing. GEM Dannenberg
and Dr. V. Schmied-Kowarzik, patent attorneys,
Frankfurt / M., Große Eschenheimer Str. 39

Named as inventor:
Joze Kostelec, Stamford, Conn .;
Heinz Friedrich Nitka,
Binghamton, NY (V. St. A.)

Claimed priority:

V. St. v. America March 11, 1959 (798 679)

R ₁ -C

/ ⁿ CH ₂

CH ₂

contains, in which R is an alkyl or alkylene group having 1 to 5 carbon atoms and R _{1 is} an alkyl or alkylene group having at least 10 carbon atoms.

Suitable radicals R ₁ are, for. B. the decyl, undecyl, tridecyl, tetradecyl, pentadecyl, hexadecyl, heptadecyl, octadecyl, nonadecyl, decenyl, undecenyl, tridecenyl, tetradecenyl, pentadecenyl, hexadecenyl, heptadecenyl , Octadecenyl or the nonadecenyl radical.

Such compounds are already known from US Pat. No. 2,440,300. According to this Patent specification can produce the 1,2-disubstituted imidazolines corresponding to the above formula are reacted by ethylenediamine with a long-chain acylating agent and the resulting N-acylethylenediamine to effect the ring closure to the 2-substituted imidazoline with calcium oxide is treated. This product is then treated with an alkylating agent having 1 to 5 carbon atoms alkylates and provides a 1,2-disubstituted imidazoline.

1,2-disubstituted imidazolines which can be used in recording materials according to the invention are, for. B.

l-isopropyl-2-undecylimidazoline,
l-amyl-2-hendecylimidazoline,
l-methyl-2-decylimidazoline,
l-ethyl-2-dodecylimidazoline,
l-isopropyl-2-dodecylimidazoline,
l-allyl-2-dodecylimidazoline,
l-methallyl-2-dodecylimidazoline,
l-methyl-2-tridecylimidazoline,

709 509/274

l-methyl-2-tetradecylimidazoline,

l-methyl-2-pentadecyimidazoline,

l-methyl-2-hexadecylimidazoline,

l-methyl-2- (l-hendecenyl) imidazoline,

l-AIIyl-2- (l-tridecenyl) -imidazoline,

1-ethyl-2-hendecylimidazoline.

Some suitable known photoconductors are e.g. B. zinc oxide, sulfur, anthracene, anthraquinone, lead oxide, Lead iodide, cadmium sulfide or cadmium selenide.

If necessary, the electrophotographic recording materials according to the invention can be known Sensitizing dyes can be mixed in to change the sensitivity of this material. Phthalein dyes are among the dyes that can be used as sensitizers such as Rose Bengal, triphenylmethane dyes such as malachite green and methyl green, and Cyanine dyes such as cryptocyanine or acridine orange.

Suitable supports, the conductivity of which can be increased, are, for. B. paper, fabric, wood, plastic or leather. Paper is preferably used as the substrate because it is economical and light is available and can be easily handled, stored and kept.

To produce the recording materials, a layer support is first provided with an intermediate layer of the imidazolines described above by coating with an imidazoline solution. If necessary, dispersions of wax or wax-like materials can be incorporated into the solution to facilitate coating, which are intended to prevent sliding by reducing the coefficient of friction when the coated materials are wound on reels or magazines. In addition, coating agents can also be added to the solution, which are intended to ensure a uniform thickness of the intermediate layer. A photoconductive layer is then applied to this intermediate layer which contains a photoconductor in a binder, the electrical resistance of which is 10 ¹² to 10 ¹⁹ ohm-cm.

Imidazolines to increase conductivity are particularly suitable for electrophotographic recording materials, which contain a fluorescent layer (see German Patent 1169 292). These electrophotographic recording materials consist of a paper coated with a fluorescent Layer or such a grid is coated on which a second layer is then made a photoconductor dispersed in an electrically insulating binder is applied. In general such recording materials lead to rather heavily fogged images, since the electrical Charges of the exposed image parts are not as easily diverted as in electrophotographic Recording materials that do not contain a fluorescent layer. Images with low or no disguise at all can be obtained if one uses the fluorescent material in the one described above Imidazolines dispersed, so that the fluorescent particles with a conductive compound are surrounded.

The electrophotographic recording material achieves that even when it is present fluorescent compounds in the intermediate layer

Toner images can be obtained whose background is practically fog-free.

The following examples serve to illustrate the invention.
All layers were applied to paper and all electrical measurements were carried out under the same temperature, humidity and lighting conditions.

For example

A paper was coated with the following solution:

l-isopropyl-2-undecylimidazoline Ig

Toluene 1200 ecm

and dried. The resistance of the paper coated in this way was 2.61 x ^{10 10} ohm-cm or less compared with 1.5 x ^{10 11} ohm-cm of the untreated paper.
A second coating liquid was like

ao is prepared as follows: 20 g of zinc oxide, 16 g of silicone resin and 20 g of toluene were placed in a porcelain ball mill with a capacity of 11, half of which was filled with 1.2 cm porcelain balls; the components were milled for 2 hours.

The mixture was then applied to the prepainted paper with an applicator roller and dried. The thickness of the photoconductive layer was 10 μ. The recording material was charged and imagewise exposed. The remaining surface charge was measured using a dynamic electrometer. A second electrophotographic recording material was then placed on top produced, but the paper was not coated with the imidazoline derivative. To charging and exposure showed that the residual surface charge was much higher than was the case with the first recording material.

As a result of the low residual surface charge of the electrophotography according to the invention With the recording material, the images obtained in this way did not show any fogging of the background.

The l-isopropyl-2-undecylimidazoline was prepared by combining ethylenediamine with lauroyl chloride acylated and the N-lauroylethylenediamine obtained using calcium oxide to give 2-undecylimidazoline was cyclized. This then became the 1-isopropyl-2-undecylimidazoline with isopropyl halide alkylated. A more detailed description of the production of such connections can be found in U.S. Patent 2,404,300.

Example 2

Example 1 was repeated, but the zinc oxide was sensitized with Rose Bengal, by adding 0.01 g of this sensitizer during the grinding in the ball mill of the zinc oxide dispersion were added.

Example3

15 g of zinc sulfide (activated with copper and cobalt) and 20 g of the 1-isopropyl-2-undecylimidazoline solution of Example 1 were ground for 2 hours in a ball mill. The resulting dispersion of fluorescent compound was then applied to a metal with an applicator roller. The fat the intermediate layer was 10μ. The photoconductive layer described in Example 2 was then applied

Claims (7)

applied to the intermediate layer and dried. The electrophotographic recording material obtained is particularly suitable for radiography, where exposure is carried out with X-rays. In use, the recording material is first electrostatically charged in the usual way and then exposed imagewise to X-rays. The electrostatic charges are diverted from the exposed parts of the image. In addition to the discharge of the charge image, the X-rays also cause the fluorescent compound to emit light, which dissipates further electrostatic charges. Thus, the fluorescent compound and the photoconductor work together to improve the efficiency of the X-rays. Example 4 Example 3 was repeated, but the metal was replaced by a paper coated with the 1-isopropyl-2-undecylimidazoline from Example 1. Patent claims: 1. Electrophotographic recording material, especially for the production of xeroradiographic Images, from a support, an intermediate layer and a photoconductive layer with a photoconductor dispersed in an insulating binder, the electrical Resistance of the binder greater than that of the substrate and greater than that of the photoconductor is, characterized in that the intermediate layer is an imidazoline of the formula Ri .K CH ₂
, CH ₂ 35 40 with 1 to 5 carbon atoms and R ₁ denotes an alkyl or alkylene group with at least 10 carbon atoms. 2. Electrophotographic recording material according to claim 1, characterized in that that the intermediate layer is an imidazoline of the formula N, CH ₂ H ₃ C - (H ₂ C) ₁₀ -C CH ₂ H _s C CH
^s CH ₃ contains, in which R contains an alkyl or alkylene group. 3. Electrophotographic recording material according to claim 1 or 2, characterized in that that there is a fluorescent in the intermediate layer, with Cu, with Cu and Co or with Ag activated zinc sulfide or an Ag activated zinc cadmium sulfide, magnesium titanium dioxide or Contains calcium tungstate or a cesium halide dispersed in the imidazoline. 4. Electrophotographic recording material according to one of claims 1 to 3, characterized characterized in that it contains finely powdered zinc oxide as a photoconductor. 5. Electrophotographic recording material according to one of claims 1 to 4, characterized characterized in that it contains a sensitizing dye in the photoconductive layer. 6. Electrophotographic recording material according to one of claims 1 to 5, characterized characterized in that silicone resin, cellulose ester, cellulose ether, vinyl resin, Contains wax or a natural resin. 7. Electrophotographic recording material according to one of claims 1 to 6, characterized characterized in that it contains paper as a layer support. 709 509/274 2.67 © Bundesdmcfcerei Berlin