EP0053328B1 - Colour photographic recording material for the production of colour pictures accordning to the colour diffusion transfer process - Google Patents

Description

The invention relates to a color photographic recording material for the production of colored images by the color diffusion transfer process, which is characterized by a special layer arrangement and the selection of certain color-providing compounds.

To carry out the color diffusion transfer process, a light-sensitive element which contains color-imparting compounds and an image-receiving element are usually used, in which the desired color image is produced by image-transferring diffusing dyes. For this purpose, it is necessary that there is firm contact between the photosensitive element and the image-receiving element for at least a finite period of time within the development time, so that the imagewise distribution of diffusing dyes produced in the photosensitive element as a result of the development can be transferred to the image-receiving element. The contact can be made after development has started or it can have been made before development begins. The latter is the case, for example, if a material is used in which the light-sensitive element and the image-receiving element form an integral unit. Embodiments of the color diffusion transfer method are known in which such an integral unit continues to exist even after the development process has ended; i.e. The photosensitive element is not separated from the image-receiving element even after color transfer has taken place. Such an embodiment is described, for example, in DE-B-1 924 430. However, according to another embodiment, the image receiving element, which carries the finished image after the color transfer, can be removed from the photosensitive element, e.g. by means of a stripping layer arranged between the two elements. With regard to such an embodiment, reference is made, for example, to DE-A-2 049 688.

If the light-sensitive element and the image-receiving element (in the form of an image-receiving layer) are arranged on the same layer support and are not separated from one another after development, there is usually an opaque, light-reflecting layer which is permeable to alkaline processing solutions and provides an optical separation between the dye image retained in the photosensitive element and the transferred dye image generated in the image-receiving layer and forms an attractive image background for the latter. The presence of such an opaque layer between the image-receiving layer and the light-sensitive element also requires that the support, regardless of which side it is on, is transparent, because it is supposed to be the imagewise exposure of the light-sensitive element from one side as well as the viewing of the Color image generated in the image receiving layer from the other side may be possible.

DE-B-1 924 430 describes an integral color photographic recording material which contains transparent layer supports on both sides of a layer structure consisting of a light-sensitive element, an opaque light-reflecting layer and an image-receiving layer. This material should be able to be developed in daylight. For this purpose, a tear-open container is provided which contains a developer solution with an opacifying agent and is arranged in such a way that its content is distributed between the photosensitive element and the transparent layer support located next to it during development, so that the photosensitive element opens after development has started the one side is protected against subsequently incident light by the pre-formed opaque layer and on the other side by the layer formed from the developer solution with the opacifying agent. Naturally, such a recording material requires an extraordinarily complex assembly with regard to the inclusion of the tear-open container and the means which bring about the integral cohesion of the necessary components of the recording material. In addition, it is not possible to produce images in any desired format with such a material. After all, such a material does not allow individual influencing of the image generation, since all means for carrying out the development, including a final neutralization, are integrated in the material and external intervention is not possible without destroying the integral character. Because of the narrow exposure latitude inherent in the color diffusion materials, incorrect exposures often occur, which, due to the lack of external intervention, results in a high proportion of unsatisfactory results.

Also in EP-A-4 399 a layer structure is described with regard to a special embodiment of the recording material described there for in-camera processing, in which the light-sensitive layers are arranged on the same layer support as the image-receiving layer and in which there is between the light-sensitive layers and the image-receiving layer can be provided with an alkali-permeable light-reflecting opaque layer. The light-sensitive layers are arranged further away from the layer support than the light-reflecting opaque layer. When processing takes place in the camera, an alkaline processing mass is distributed between the uppermost light-sensitive layer and an overlying cover sheet. This layer structure accordingly has the same disadvantages and limitations as the aforementioned integral recording material according to DE-B-1 924 430.

The object on which the invention is based is to provide a color photographic recording material which is suitable both for copying purposes and for recording purposes, which is simple in construction and easy to process, which can be cut and thus the production of images different formats allowed and its development can be observed in light and influenced if desired.

• a) einem transparenten Schichtträger,
• b) einem lichtempfindlichen Element, das mindestens eine lichtempfindliche Silberhalogenidemulsionsschicht enthält, der eine nicht-diffundierende reduzierbare farbgebende Verbindung, die in reduzierter Form unter alkalischen Entwicklungsbedingungen einen diffusionsfähigen Farbstoff freisetzt, und eine Elektronendonorverbindung (ED-Verbindung) zugeordnet sind,
• c) einer opaken lichtreflektierenden Schicht und
• d) einer durch diffundierende Farbstoffe anfärbbaren Bildempfangsschicht,
  dadurch gekennzeichnet, dass der transparente Schichtträger, das lichtempfindliche Element, die opake lichtreflektierende Schicht und die Bildempfangsschicht in der angegebenen Abfolge einen festen Schichtverband bilden.

The invention relates to a color photographic recording material for the production of colored images using the color diffusion transfer process

• a) a transparent layer support,
• b) a photosensitive element which contains at least one photosensitive silver halide emulsion layer which is assigned a non-diffusing, reducible coloring compound which, in reduced form, releases a diffusible dye under alkaline development conditions, and an electron donor compound (ED compound),
• c) an opaque light reflecting layer and
• d) an image-receiving layer which can be colored by diffusing dyes,
  characterized in that the transparent layer support, the light-sensitive element, the opaque light-reflecting layer and the image-receiving layer form a fixed layer structure in the specified sequence.

• 1. ein transparenter Schichtträger;
• 2. ein lichtempfindliches Element;
• 3. eine opake lichtreflektierende Schicht;
• 4. eine Bildempfangsschicht;

die in der angegebenen Abfolge einen festen Schichtverband bilden. Hiermit ist gemeint, dass sie übereinander angeordnet sind in einer Weise, die zu keiner Zeit während der Herstellung, Lagerung, Verarbeitung und anschliessender Aufbewahrung des fertigen Bildes unter den hierbei üblichen Bedingungen - auch nicht vorübergehend - eine Schichtentrennung zulässt. Insbesondere soll keine Schichtentrennung zwischen dem transparenten Schichtträger und dem lichtempfindlichen Element möglich sein. Die angegebenen Schichtelemente sind in üblicher Weise in der angegebenen Abfolge übereinander vergossen und haften fest aufeinander. Besonders hinzuweisen ist dabei auf den Umstand, dass es für den Zusammenhalt der verschiedenen Schichten keiner Randumfassung bedarf. Desweiteren ist darauf hinzuweisen, dass neben dem erwähnten transparenten Schichtträger kein weiterer Schichtträger vorhanden ist.Essential layer elements of the recording material according to the invention are thus

• 1. a transparent layer support;
• 2. a photosensitive element;
• 3. an opaque light reflecting layer;
• 4. an image receiving layer;

which form a fixed layer structure in the specified sequence. This means that they are arranged one above the other in such a way that at no time during the production, storage, processing and subsequent storage of the finished image under the usual conditions - not even temporarily - does a layer separation. In particular, it should not be possible to separate the layers between the transparent layer support and the light-sensitive element. The specified layer elements are cast in the usual order in the order specified and adhere firmly to one another. Special mention should be made of the fact that it is not necessary to enclose the different layers in order to hold them together. Furthermore, it should be pointed out that in addition to the transparent substrate mentioned, there is no other substrate.

As the transparent layer support (layer element 1) for the color photographic recording material according to the invention, the usual transparent support materials used in photographic practice can be used, e.g. Films made from cellulose esters, polyethylene terephthalate, polycarbonate or other film-forming polymers.

The light-sensitive element (layer element 2) is also an essential component of the integral color photographic recording material according to the invention. In the case of a single-dye transfer process, it contains a light-sensitive silver halide emulsion layer and associated with it a non-diffusing coloring compound. The coloring compound can be located in a layer adjacent to the silver halide emulsion layer or in the silver halide emulsion layer itself. To produce multicolored transfer images in true-to-life colors, however, the photosensitive element generally contains three such assignments of coloring compound and photosensitive silver halide emulsion layer, the absorption range of the image dye resulting from the coloring compound generally matching the range of the spectral sensitivity of the assigned silver halide emulsion layer becomes. It can be beneficial to achieve the highest possible sensitivity if the color-providing compound is arranged in a separate binder layer (viewed in the direction of the light incident during the exposure) behind the silver halide emulsion layer or has an absorption that is different from that of the image dye formed from it is different (eg "shifted image dyes", US-A-3 854 945). Between the different assignments of differently spectrally sensitized silver halide emulsion layers and coloring compound there are usually alkali-permeable separating layers which essentially have the function of preventing color falsification. Such separating layers are particularly effective if they contain compounds which are capable of rendering diffusing developer oxidation products harmless.

worin bedeuten

• X den Rest eines diffusionsfähigen Farbstoffes oder Farbstoffvorläufers,
• R^l, R², R³ Wasserstoff, Halogen, Alkyl, Alkoxy, Aryl oder Acylamino, oder R² und R³ vervollständigen einen ankondensierten Ring,
• R⁴ Wasserstoff oder Alkyl; und wobei mindestens einer der Reste R¹, R², R³ und R⁴ einen diffusionsfestmachenden Rest enthält.

As the coloring compound, the light-sensitive element (layer element 2) of the color photographic recording material according to the invention contains non-diffusing compounds assigned to the differently sensitized silver halide emulsion layers diffusible dyes. Such coloring compounds are known, for example, from DE-A-2 809 716 and published European patent application No. 0 004 399. Examples of particularly suitable coloring compounds correspond to the formula

in what mean

• X the rest of a diffusible dye or dye precursor,
• R ¹ , R ² , R ^{3 are} hydrogen, halogen, alkyl, alkoxy, aryl or acylamino, or R ² and R ³ complete a fused ring,
• R ^{4 is} hydrogen or alkyl; and wherein at least one of the radicals R ¹ , R ² , R ³ and R ^{4 contains} a diffusion-proofing radical.

For X, the residues of dyes from all known dye classes are generally used Question as far as they are sufficiently diffusible to be able to diffuse through the layers of the light-sensitive material into the image-receiving layer.

For this purpose, the dye residues can be provided with one or more water-solubilizing groups. As water-solubilizing groups, i.a. suitable carboxyl groups, sulfo groups, sulfonamide groups and aliphatic or aromatic hydroxyl groups. However, the sulfinic acid group remaining in the dye after the cleavage already gives the dye molecule a considerable tendency to diffuse in the alkaline medium, so that the presence of additional water-solubilizing groups is not absolutely necessary. Examples of dyes which are particularly suitable for the process according to the invention are: azo dyes, azomethine dyes, anthraquinone dyes, phthalocyanine dyes, indigo dyes, triphenylmethane dyes, including those which are complexed with metal ions or can be complexed with metal ions after the diffusion transfer.

The residues of dye precursors are to be understood as the residues of those compounds which, in the course of photographic processing, are subjected to customary or additional processing steps, either by oxidation, by coupling or by exposure of an auxochromic group in a chromophoric system, for example by saponification Dyes are transferred. Dye precursors in this sense can be leuco dyes, couplers or dyes that are converted into other dyes in the course of processing.

The alkyl and alkoxy radicals represented by R ', R ² and R ³ can be straight-chain or branched and generally contain up to 18 carbon atoms. Examples are methyl, n-propyl, tert-butyl, tetradecyl, octadecyl, methoxy, dodecoxy, tetradecoxy. In the acylamino radicals represented by the radicals mentioned, the acyl groups are derived from aliphatic or aromatic carboxylic or sulfonic acids. The fused-on rings completed by R ² and R ³ are preferably carbocyclic rings, for example fused-on benzene or bicyclo [2,2,1 1I-heptenic rings.

An alkyl radical represented by R ⁴ can be straight-chain or branched, substituted or unsubstituted and contain up to 21 C atoms. Examples are methyl, nitromethyl, phenylmethyl (benzyl), heptyl, tridecyl; Pentadecyl, heptadecyl, -C ₂ , H ₄₃ .

Residues which allow the compounds according to the invention to be stored diffusion-resistant in the hydrophilic colloids which are customarily used in photographic materials are to be regarded as residues which prevent diffusion. Organic radicals which generally contain straight-chain or branched aliphatic groups and optionally also isocyclic or heterocyclic or aromatic groups with generally 8 to 20 C atoms are preferably suitable for this purpose. These radicals are either directly or indirectly connected to the rest of the molecule, for example via one of the following groups: -NHCO-, -NHS0 ₂ -, -NR-, where R is hydrogen or alkyl, -O- or -S-. In addition, the diffusion-proofing residue can also contain water-solubilizing groups, such as sulfo groups or carboxyl groups, which can also be in anionic form. Since the diffusion properties depend on the molecular size of the total compound used, it is sufficient in certain cases, for example if the total molecule used is large enough, to use shorter-chain residues as “diffusion-resistant residues”.

The photosensitive element (layer element 2) furthermore also contains the ED compounds already mentioned, which are assigned to the various silver halide emulsion layers. These are reducing agents which are subjected to imagewise oxidation under the conditions of alkaline development by exposed silver halide or by oxidation products of auxiliary developer compounds and which on the other hand are able to reduce the reducible coloring compounds under the same conditions. The ED compounds are also intended to maintain their assignment to a specific silver halide emulsion layer and the associated non-diffusing coloring compound during processing and therefore have, if at all, only limited mobility; they are preferably embedded in the respective layers in a diffusion-resistant form. The ED compounds are, for example, non-diffusing derivatives of hydroquinone, p-aminophenol, benzisoxazolone or ascorbic acid (e.g. ascorbyl palmitate). Such compounds are known, for example, from DE-A-2 809 716. Particularly favorable ED compounds are described in DE-A-3 006 268.

“Assignment” and “assigned” is to be understood to mean that the mutual arrangement of the silver halide emulsion layer, the non-diffusing coloring compound and the non-diffusing Ed compound of such a kind that an interaction between them is possible that an image-like correspondence between formed silver image and image-wise distribution of the oxidation product of the ED compound on the one hand and image-wise distribution of the ED compound not oxidized in the development of silver halide and image-wise distribution of released diffusible dye on the other hand.

The light-sensitive silver halide emulsions can be simple negative or direct positive emulsions, depending on the respective determination. The coloring system used according to the invention itself works positively, i.e. the dye is released in accordance with the image distribution of the undeveloped silver halide. The use of simple negative emulsions is therefore sufficient for the production of positive copies of positive originals.

As a further essential component, the color photographic recording material according to the invention contains an opaque light-reflecting layer (layer element 3) which is permeable to aqueous alkaline solutions. This layer essentially has the function of shielding the color image retained in the photosensitive element during development from the viewing side and of providing an aesthetically pleasing image background for the transmitted color image generated in the image receiving layer. This is achieved in a known manner by means of a binder layer which contains a light, in particular white pigment, for example TiO _z .

The image-receiving layer of the color photographic recording material according to the invention (layer element 4) essentially consists of a binder which contains mordants for the determination of the diffusing dyes released from the non-diffusing color compounds. Long-chain quaternary ammonium or phosphonium compounds or tertiary sulfonium compounds, e.g. those as described in US-A-3,271,147 and US-A-3,271,148. Furthermore, certain metal salts and their hydroxides, which form poorly soluble compounds with the acid dyes, can also be used. Polymeric mordants should also be mentioned here, such as those described in DE-A-2 315 304, DE-A-2 631 521 or in DE-A-2 941 818. The dye mordants are dispersed in the mordant layer in one of the usual hydrophilic binders, e.g. in gelatin, polyvinylpyrrolidone, completely or partially hydrolyzed cellulose esters. Of course, some binders can also act as mordants, e.g. Copolymers or polymer mixtures of vinyl alcohol and N-vinylpyrrolidone, as described for example in DE-B-1 130 284, furthermore those which are polymers of nitrogen-containing quaternary bases, e.g. Polymers of N-methyl-2-vinylpyridine, as described, for example, in US Pat. No. 2,484,430. Further usable binders are, for example, guanylhydrazone derivatives of alkyl vinyl ketone polymers, as described, for example, in US Pat. No. 2,882,156 or guanylhydrazone derivatives of acylstyrene polymers. as described, for example, in DE-A-2 009 498. In general, however, other binders, eg Add gelatin.

In addition, the color photographic recording material according to the invention can contain further layers in special configurations. Thus, a hardened protective layer can be arranged over the image-receiving layer, in particular to protect the image-receiving layer with the color image generated therein during development against mechanical damage. If desired, such a protective layer can also contain matting agents.

It goes without saying that such protective layers must be permeable to aqueous alkaline processing solutions, at least during development. Furthermore, an additional light-absorbing layer can be contained between the light-sensitive element and the opaque light-reflecting layer, which layer can consist, for example, of a binder with a dark pigment such as carbon black distributed therein. Such a layer means additional protection for the light-sensitive element against light incident from the viewing side and contributes to improving the sharpness. In addition, it causes the color image retained in the light-sensitive element and visible through the transparent layer support to appear uniformly darker and thus less noticeable. Finally, additional layers can be present on the back of the transparent support of the recording material according to the invention in a known manner, provided that these are transparent enough to ensure the imagewise exposure of the photosensitive element through the transparent support. Such an additional layer can serve, for example, to improve the flatness and contain one or more correction dyes to improve the color coordination of the color photographic recording material according to the invention. Furthermore, in such a layer to improve the overall optical impression, means can be provided for producing an opaque cover over the negative image generated in the photosensitive element. Such a transparent layer can contain, for example, a substance which, with another substance contained in the developer bath, results in a white cloudiness. For example, barium chloride can be incorporated in the backing layer, which reacts with sodium sulfate contained in the developer to form white barium sulfate. Another pair of suitable opacifying reagents is, for example, the combination of barium sulfide in the transparent backing and zinc sulfate in the developer bath. With regard to such techniques, reference is made to DE-A-2 127 924.

The color photographic recording material according to the invention can be made available in the form of individual sheets or also in the form of a tape because of the simple assembly. The color photographic recording material according to the invention is also not subject to any restrictions with regard to the format. If required, the user can also cut it to the desired size before processing, so that borderless images can be produced in any format without subsequent cutting.

The color photographic recording material according to the invention is equally suitable as recording material and also as copying material, the exposure being carried out in each case through the transparent layer support. In principle, any photographic camera can be used when used as recording material; there is no need for complex special devices such as the conventional instant cameras. For the production of colored copies, the imagewise exposure of the color photographic recording material according to the invention is generally carried out in a dark room, e.g. in contact with a transparent colored template or using a conventional projection magnification device.

This is followed by simple processing, which essentially consists in bringing the exposed color photographic recording material into contact with an alkaline developer solution. This can be done, for example, by immersing the material in a suitable developer bath in the usual way or by applying a developer preparation in the form of a paste to the image-receiving layer of the color photographic material according to the invention. Instead of liquid or viscous developer preparations, simple alkaline baths or pastes can also be used if the necessary developer substances, e.g. Phenidone or its derivatives are embedded in one or more layers of the color photographic recording material according to the invention; such as in the image-receiving layer, the opaque light-reflecting layer or one or more layers of the light-sensitive element. Development with liquid developer baths can be carried out in simple vessels, e.g. in trays, tanks or commercially available home laboratory development streams.

Surprisingly, it has been found that the color photographic recording material according to the invention can be brought to light without an disadvantage after an initial dark processing time of a few minutes, so that the formation of the color transfer image can be observed in the image-receiving layer without the subsequent exposure having any appreciable influence on the color image to be produced exercises. Although the development of silver halide is not yet complete and silver halide which has been exposed to light is further developed, which manifests itself in the fact that the light-sensitive element which is visible through the transparent layer support becomes darker, but this has essentially no effect on the quality of the color image to be produced. It is thus possible to observe the formation of the color transfer image and, if desired, to stop the development process or the post-diffusion of the image dyes when a sufficient color density has been reached, for example by immersing the pH value so far in the color photographic recording material by immersing it in a weakly acidic interrupter bath that the dye anions released up to that point are converted into the corresponding no longer diffusible dye acids and a stable image is obtained. This possibility of influencing the image (“development according to perspective”) is a peculiarity of the color photographic recording material according to the invention, which is presumably due to the non-diffusing, reducible coloring compounds used according to the invention.

Other color photographic recording materials of comparable construction but with other coloring compounds do not offer this possibility, since premature post-exposure of the photosensitive element, which would not be avoidable in the construction according to the invention, would provide color transfer images which either have too low color densities, e.g. when using dye developers according to DE-B-1 196 075, or which have intolerably high minimum densities (fog), e.g. when using non-diffusing color-giving redox compounds according to DE-A-2 242 762. Also a black-and-white material which contains a light-sensitive layer on a transparent support, an opaque light-reflecting layer on top and an image-receiving layer on top and which can be developed using the silver salt diffusion process ( GB-A-746 948), cannot be developed by sight, since if the light-sensitive silver halide emulsion layer is prematurely reexposed, too much silver will develop in it and blacks which are too large would be obtained in the image receiving layer.

Another unexpected advantage of the color photographic recording material according to the invention can finally be seen in the fact that the outer image-receiving layer in the usual composition is sufficient to almost completely fix the diffusible dye released during development, so that practically no dye gets into the developer solution if processing in liquid baths is made. There is therefore no need to fear that the developer baths will be contaminated prematurely by diffusing dyes.

example 1

A light-sensitive element of a photographic recording material according to the invention was produced by successively applying the following layers on a transparent support made of polyethylene terephthalate. The quantities refer to 1 _M ^2.

• 1. Blue-sensitized AgBr negative emulsion from 0.5 g AgN0 ₃ , with 0.357 g compound A (yellow dye releasing compound), 0.306 g compound B (ED compound), 0.663 g palmitic acid diethylamide (oil former) and 1.164 g gelatin.
• 2. Yellow filter layer with 0.16 g of yellow dye Solvent Yellow 29 (C.I. 21230), 0.2 g of 2-iso-octadecyl-5-sulfo-hydroquinone and 1.0 g of gelatin.
• 3. Green-sensitized AgBr negative emulsion from 0.5 g AgN0 ₃ , with 0.314 g compound C (purple dye-releasing compound), 0.223 g compound B, 0.537 g diethyl lauramide (oil former) and 1.037 g gelatin.
• 4. Interlayer with 0.12 g of 2-iso-octadecyl-5-sulfo-hydroquinone, 0.60 g of compound D (developer) and 1.0 g of gelatin.

• 5. Red-sensitized AgBr negative emulsion from 0.5 g of AgN0 ₃ , with 0.30 g of compound E (cyan dye-releasing compound), 0.162 g of compound B, 0.42 g of palmitic acid diethylamide and 0.962 g of gelatin.
• 6. Opaque light reflecting layer with 18 g Ti0 ₂ and 2.57 g gelatin.
• 7. Image-receiving layer with 3.46 g of a polymeric mordant consisting of 4,4'-diphenyimethane diisocyanate and N-ethyldiethanolamine, quaternized with Epi chlorohydrin according to DE-OS 2 631 521, Example 1, and 3.46 g of gelatin.
• 8. Protective and hardening layer with 1.2 g of compound F (hardening agent) and 0.6 g of gelatin.

The recording material is exposed through the transparent support behind a conventional gray wedge and developed in an open dish at 22 ° C. for 3 minutes with a bath of the following composition:

It is then watered and dried for 1 minute. A color image is obtained with excellent color separation and the following Dmin / Dmax values:

When viewed from the back - through the transparent support - the negative in the light-sensitive element (layers 1 to 5) is weakly distinguished from the generally dark brown color.

Example 2

Various samples of the recording material described in Example 1 were developed in an open dish under absolute darkness as in Example 1, but for different lengths: FIG. 1 shows the dependence of the developed color densities on the development time (curve 1: yellow density, curve 2: purple density, Curve 3: blue green density). It can be seen that the maximum color densities are practically reached after 5 minutes, but that there is still a rise in density within 2 to 5 minutes after the start of development.

Five further samples were also processed for 5 minutes, but after different initial dark times, lamp light was switched on and the remaining time was developed in the light. An influence of the lamp light would have to be a reduction in the achievable maximum densities. In fact, such a drop in ink density can only be recorded (Table 1) if the dark time is less than 2 minutes. This shows that after a dark time of 2 minutes the image formation can be observed in the light without any disadvantages. The silver development is not yet complete after this time, which can be seen from the fact that the silver halide emulsion layers are blackened more evenly by the incidence of light; the dark coloring of the back of the image becomes more uniform and therefore more attractive than that of color images that are developed entirely in the dark.

Example 3

In 1 liter of the activator bath described in Example 1, unexposed samples of the recording material (Material 1) described in Example 1 were successively developed for 3 minutes each up to a total throughput of 0.2 m ² . In a further volume of the activator bath described in Example 1, likewise 1 liter, in the same way, unexposed samples of a material were developed, which differed from that of Example 1 only in the absence of the image-receiving layer (layer 7) (material ₁ 2 ); Total throughput also 0.2 m ² .

• Material 1: E = 0,16
• Material 2: E = 1,7

einheitlich über den ganzen sichtbaren Spektralbereich. Dies zeigt, dass die Beizschicht wirkungsvoll den Farbstoff zurückhält, so dass keine störende Verfärbung des Verarbeitungsbades eintritt.The activator solution treated with material 2 stained strongly, while the activator solution treated with material 1 remained practically colorless. Absorbance measurements (layer thickness 1 cm) showed:

• Material 1: E = 0.16
• Material 2: E = 1.7

uniform over the entire visible spectral range. This shows that the stain layer effectively retains the dye so that there is no annoying discoloration of the processing bath.

Example 4

The recording material according to the invention was compared with similarly structured materials which, instead of the coloring compound used according to the invention (non-diffusing, reducible compound which releases a diffusible dye in reduced form under alkaline development conditions), contain other coloring compounds.

Material 1 (according to the invention)

Layers 5, 6 and 7 of the recording material described in Example 1, and also were successively placed on a transparent layer support applied a protective layer with 0.6 g gelatin.

Material 2 (according to the invention)

• eine rotsensibilisierte AgBr-Negativemulsion aus 0,5 g AgN0₃, mit 0,41 g Verbindung G (Blaugrünfarbstoff freisetzende Verbindung), 0,467 g Verbindung H (ED-Verbindung), 0,462 g Palmitinsäure-diethylamid und 0,962 g Gelatine (entsprechend Schicht 5 aus Beispiel 1)

The following were applied in succession (per 2 m ² ) to a transparent layer support:

• a red-sensitized AgBr negative emulsion composed of 0.5 g AgN0 ₃ , with 0.41 g compound G (cyan dye-releasing compound), 0.467 g compound H (ED compound), 0.462 g palmitic acid diethylamide and 0.962 g gelatin (corresponding to layer 5) Example 1)

as well as layers 6 and 7 from example 1 and a protective layer with 0.6 g of gelatin.

Material 3 (coloring compound according to DE-A-2 645 656)

• eine grünsensibilisierte Direktumkehremulsion vom Innenkeimtyp aus 2,7 g AgN0₃ (mittlere Korngrösse 1,8 µm), mit 0,005 mg Verbindung I (Schleiermittel), eine Schicht mit 0,7 g Verbindung K (Purpurfarbstoff freisetzende Verbindung, 0,7 g Trikresylphosphat und 1,4 g Gelatine,

The following were applied to a transparent substrate (per m ² ):

• a green-sensitized direct reverse emulsion of the inner germ type from 2.7 g AgN0 ₃ (average grain size 1.8 µm), with 0.005 mg compound I (fog agent), a layer with 0.7 g compound K (purple dye-releasing compound, 0.7 g tricresyl phosphate and 1.4 g gelatin,

as well as layers 6 and 7 from example 1 and a protective layer with 0.6 g of gelatin.

• 51 g KOH
• 2 g Na₂S0₃
• 3 g 4-Hydroxymethyl-4-methyl-1-phenyl--3-hydroxy-pyrazolin
• 2 g 5-Methylbenztriazol

auffüllen mit Wasser auf 1000 ml.A solution of the following composition was used as developer:

• 51 g KOH
• 2 g Na ₂ S0 ₃
• 3 g of 4-hydroxymethyl-4-methyl-1-phenyl-3-hydroxy-pyrazoline
• 2 g of 5-methylbenztriazole

make up to 1000 ml with water.

Different samples of materials 1, 2 and 3 were now processed (developed) for different lengths of time, first in the dark and then in light, with a total development time which was 180 seconds for material 1 and 600 seconds for materials 2 and 3,600. The different overall development times were necessary to obtain comparable color densities. In addition to the total development time (a + b) divided into dark time (a) and light time (b), the percentage of dark time in the total development time ( ^a ) is given in Table 2. a + b

It can be seen from Table 2 that with materials 1 and 2 according to the invention, light can be allowed to act without disadvantage after about 50 or 67% of the total processing time. In contrast, in the case of material 3 not according to the invention, even a small incidence of light causes drastic disturbances in the image structure; a counter gradation builds up and with longer incidence of light there is no visual differentiation at all.

Claims (7)

1. Colour photographic recording material for the production of coloured images by the dye diffusion transfer process, comprising

a) a transparent layer support,

b) a photosensitive element which contains at least one photosensitive silver halide emulsion layer to which a non-diffusing reducible colour-providing compound, which, in reduced form, liberates a diffusible dye under alkaline development conditions, and an electron-donor compound (ED- compound) are associated,

c) an opaque light-reflecting layer and

d) an image-receiving layer which may be dyed by diffusing dyes,

characterised in that the transparent layer support, the photosensitive element, the opaque light-reflecting layer and the image-receiving layer form an inseparable assembly of layers in the indicated sequence.

2. Recording material according to claim 1, characterised in that the colour-providing compound used is a compound of the following formula:

wherein

X denotes the radical of a diffusible dye or dye precursor,

R¹, R² and R³ denote hydrogen, halogen, alkyl, alkoxy, aryl or acylamino, or R² and R³ complete a fused-on ring, and

R⁴ denotes hydrogen or alkyl,

and wherein at least one of the radicals R¹, R², R³ and R⁴ contains a radical conferring diffusion resistance.

3. Recording material according do claim 1, characterised in that an additional transparent layer is arranged on the reverse side of the transparent layer support.

4. Recording material according do claim 3, characterised in that the additional transparent layer contains one or more dyes.

5. Recording material according do claim 3, characterised in that the additional transparent layer contains an agent which produces a white haze therein during processing.

6. Recording material according do claim 1, characterised in that an additional opaque light-absorbing layer is arranged between the photosensitive element and the opaque light-reflecting layer.

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