US3701662A

US3701662A - Color photographic process using a bleach-fix solution containing a metal complex of a selenium compound

Info

Publication number: US3701662A
Application number: US105956A
Authority: US
Inventors: Enzo Piccotti
Original assignee: Ilford Ltd
Current assignee: Ilford Imaging UK Ltd
Priority date: 1970-01-13
Filing date: 1971-01-12
Publication date: 1972-10-31
Anticipated expiration: 1989-10-31
Also published as: GB1311001A; JPS5411699B1; CH554549A; BE761510A; DE2101436A1; FR2075434A5

Abstract

THIS APPLICATION DESCRIBES A COLOUR DEVELOPMENT PROCESS FOR COLOUR SILVER HALIDE PHOTOGRAPHIC MATERIAL, WHEREIN THE MATERIAL AFTER DEVELOPMENT IS TREATED WITH A BLEACHFIX SOLUTION WHICH CONTAINS A MILD OXIDISING AGENT, A SILVER HALIDE SOLVENT AND AS A BLEACH-FIX ACCELERATOR A WATERSOLUBLE COMPLEX CONSISTING OF A SPECIFIED METAL AND SELENOUREA A SPECIFIED N-ALKYL SUBSTITUTED SELENOUREA OR A SPECIFIED SELENOSEMICARBAZIDE.

Description

United States Patent 3,701,662 COLOR PHOTOGRAPHIC PROCESS USING A BLEACH-FIX SOLUTION CONTAINING A METAL COMPLEX OF A SELENIUM COMPOUND Enzo Piccotti, Ilford, England, assignor to Ilford Limited, Ilford, Essex, England No Drawing. Filed Jan. 12, 1971, Ser. No. 105,956 Claims priority, application Great Britain, Jan. 13, 1970, 1,617/ 70 Int. Cl. G03c 7/00 US. Cl. 96-55 9 Claims ABSTRACT OF THE DISCLOSURE This application describes a colour development process for colour silver halide photographic material, wherein the material after development is treated with a bleachfix solution which contains a mild oxidising agent, a silver halide solvent and as a bleach-fix accelerator a watersoluble complex consisting of a specified metal and selenourea, a specified N-alkyl substituted selenourea or a specified selenosemicarbazide.

This invention relates to the processing of photographic material comprising silver halide emulsion layers to yield material having colour dye images therein.

In the processing of conventional colour photographic material a developable silver salt image is developed with an aromatic primary amino developing agent of the paraphenylene diamine type (a so-called colour developer) in the presence of a compound (a so-called colour coupler) which will combine with the oxidation products of the colour developer to form an azomethine or quinoneimine dye. The dye is thus formed in situ with the developed silver image. Subsequently the product must be treated with a bleach bath and a fixing bath or a combined bleach-fix bath thereby to remove silver and any residual silver halide or other silver salt, leaving in the product only the dye image.

In the silver-dye bleach process of colour photography the photographic material comprises at least one silver halide emulsion layer which includes as a dispersion therein an organic dyestulf or the type which can be destroyed (or bleached) by finely divided silver in a suitable treatment bath. The organic dyestulf is usually an azo dye. Most commonly three such silver halide emulsion layers are present, each of which is sensitive to a different region of the visible spectrum and each of which contains a different azo dye. The usual processing sequence for the production of a dye image in the material is after an imagewise exposure to develop the material in a black and white developer. The development is then stopped and the unexposed silver halide is fixed out. Then after washing the material is treated in a dye-blech bath which oxidises the silver image and simultaneously reduces (bleaches) the dye in the region of the silver image. The silver salts and any residual silver must then be removed. This is usually accomplished by washing the material after its treatment in the dye-bleach bath and then treating it in a bleach bath followed by a fixing bath or treating it in a combined bleach-fix bath. The photographic material then contains a dye image only; this dye image being usually a direct positive reproduction of the original.

In one commercially available silver-dye-bleach material the amount of residual silver left after the dye-bleach ice step is not negligible because this material requires to be processed so that the dye-bleach step is terminated before all the image silver has been used in reducing the dye. Thus in the processing of this silver-dye-bleach material in particular it is essentially that an elfective silver bleach step succeeds the dye-bleach step in order to ensure that the residual silver is removed as completely as possible from the material.

In both the processing of conventional colour photographic material and in the processing of silver-dye-bleach material the use of a combined bleach-fix bath is preferable because it results in a reduction of the processing time and of the cost of processing equipment required. Normally a bleach-fix bath comprises a mild oxidising agent for example a ferric chelate complex, a cupric complex a salt or a cobalt (III) complex together with a silver halide solvent or fixing agent for example a watersoluble thiosulphate or a water-soluble thiocyanate. Strong oxidising agents cannot be used because they tend to oxidise the silver halide solvent.

Stable bleach-fix solutions comprising ferric chelate complexes and sodium thiosulphate may be obtained but because of the weak oxidising power of the ferric chelate complex such bleach-fix baths can only be used commercially for the processing of photographic materials with a fairly low silver content.

It has been proposed to use selenourea, certain N-alkyl substituted selenoureas and certain substituted selenosemicarbazides as bleach-fix accelerators in a bleach-fix step which can be used in the processing of colour photographic material which have a relatively high silver content, for example colour negative material and colour reversal material. It has now been found that certain metal complexes of these compounds may be used instead of the compounds as bleach-fix accelerators.

According to the present'invention in the processing of colour photographic material comprising silver halide emulsion layers to yield material having colour dye images therein there is provided a bleach-fix step which comprises treating the photographic material with a stable bleach-fix bath which comprises an aqueous solution of a mild oxidising agent and a silver halide solvent which is either a water-soluble thiosulphate or a water-soluble thiocyanate in the presence of a bleach-fix accelerator which comprises a water-soluble complex consisting of a metal selected from iron, cobalt, nickel, copper, zinc, palladium, silver, cadmium, indium, tin, antimony, platinum, gold mercury, lead and bismuth and (a) selenourea, (b) an N-alkyl substituted selenourea of the general Formula I:

wherein R R and R are hydrogen atoms or alkyl groups, at least one of them being a hydrogen atom, or (c) a selenosemicarbazide of the general Formula II:

R21 R2: 38 R24 R2: R25 II wherein one of R and R is a hydrogen atom or an alkyl, aralkyl or aryl group and the other of R and R is a hydrogen atom or an alkyl group, R is a hydrogen atom or an alkyl, aralkyl or aryl group, one of R and R is a hydrogen atom or an alkyl, aralkyl or aryl group and the other of R and R is a hydrogen atom or an alkyl group but at least one of R ,R or R being a hydrogen atom and there being not more than one group selected from aryl and aralkyl present in the compound.

By stable bleach-fix bath which comprises an aqueous solution of a mild oxidising agent and a silver halide solvent is meant a bleach-fix bath wherein the oxidising agent is strong enough to bleach the silver but is not strong enough to oxidise the silver halide solvent, i.e. the thiocyanate or the thiosulphate, to an appreciable degree.

The preferred mild oxidising agents for use in the present invention are ferric chelate complexes or diaquotetramine-cobalt (III) complexes.

By ferric chelate complex is meant a co-ordination compound of the ferric ion and a compound which comprises nitrogen and/or oxygen-containing co-ordinating groups. The most important co-ordinating groups are amino, heterocyclic nitrogen, carboxyl and carbonyl groups.

The preferred ferric chelate complex for use in the bleach-fix step of the present invention is a ferric ethylenediaminetetraacetic acid complex. It is to be understood that this compound may be usedas such in the preparation of a bleach-fix bath or it may be formed in situ in a bleach-fix bath by ethylenediaminetetraacetic acid reacting with a ferric salt, e.-g. ferric chloride. In Example I which follows the ferric ethylenediaminetetraacetic acid complex has been formed in situ.

Other ferric chelate complexes which may be used in the present invention are for example pyridine-2:6 dicarboxylateferrate (III) complex, iminodiacetatoferrate (III) complex and nitrilo-triacetate-ferrate (III) complex.

It is thought that the selenourea-metal complexes of use in the present invention as bleach-fix accelerators have the general Formula III:

R R R HN CSe) M] zy wherein R R R are each hydrogen atoms or alkyl groups, at least one of them being a hydrogen atom, M is one of the metals in the list hereinbefore set forth, Z is an anion, z is the valency of the anion and y is the valency of the complex cation.

It is thought that the selenosemicarbazides of Formula II-metal complexes of use in the present invention as bleach-fix accelerators have the general Formula IV:

[( 21 22 23 24, 25, 3 )n ]'z y where M, Z, y.and z have the meanings assigned to them above and n is 1 or 2 and R -R have the meanings assigned to them in Formula II.

The preparation of metal-complex salts of selenourea and silver, copper, mercury, lead and cadmium ions has been described by M. A. Verneuil in Annales de Chimie et de Physique, Ser. 6, 9, 289 (1886) by H. Schmidt in Med. Chem. Abhandl. med-chim 'Forschungstatten. I. G. Farbenid, 3, 418 (1936) and by N. N. Po Proskina, S. M. Chulskaya, G. F. Volodina, A. V. Ablov, Shur. Strukt. Khim., 9, 1095 (1968).

The selenosemicarbazides of the above FormulaIII are known compounds as shown by the references set forth below.

The following Formula VI indicates the nitrogen atom referred to in the references.

Se N Hz-N H-ii-NH:

4-phenylselenosemicarbaxidepreparation described by Jensen & Frederiksen. Z. anorg allgem Chem 230 31-3 193 6) 2-phenylselenosemicarbazide-preparation described by Mautner & Kumler, J. Amer Chem Soc 97-101 (1956) 4-ethylselenosemicarbazide-preparation described by Huls & Renson Bull soc chim Belges 65 684-95 (1956) 4-propylselenosemicarbazidepreparation described by M. Colland-Charon, Huls & Renson, Bull soc chim Belges 71 541-53 (1962) 1-phenylselenosemicarbazide and l-(p-tolyl) selenosemicarbazide preparations described by Colland-Charon, Juls & Renson, Bull soc chim, Belges 71 554-62 (1962) 2-methylselenosemicarbazide,

4-methylselenosemicarbazide,

1,1-dimethylselenosemicarbazide,

1,Z-dimethylselenosemicarbazide and 1,2,4 trimethylselenosemicarbazidepreparations described by Jensen, Felbert, Pedersen & Svanholm Acta chem Scand 20(1) 278-81 (1966) 2-methyl-4-pheny1selenosemicarbazide,

4- (p-chlorphenyl)-selenosemicarbazide and 4 (p-methoxyphenyl) selenosemicarbazidepreparations described by Bulka, Ahlens & Tucek Chem Ber. 100 (4) 1373-8 (1967) to or absorbed in the colour photographic material. In the processing of conventional colour photographic material, i.e. colour negative on colour reversal material the bleach-fix accelerators of use in the present invention may be present in any treatment bath or wash bath which is used in the colour development process between the development step and the bleach-fix step. Exemplary of such baths are stop baths and stop-fix baths. The bleachfix step. Exemplary of such baths are stop baths and stop-fix baths. The bleach-fix accelerators should not be present, however, in the developing solution as they interfere with the development of the colour material. For the same reacon the bleach-fix accelerators of use in the present invention should not be present initially in the photographic material.

In the processing of silver-dye-bleach material the bleach-fix accelerators may be present in the wash bath which succeeds the dye-bleach treatment bath and precedes the bleach-fix bath but the bleach-fix accelerators should not be present during the dye-bleach treatment as they can interfere with this treatment step. Thus the bleach-fix accelerators should not be present initially in the silver-dye-bleach photographic material.

A number of the bleach-fix accelerators of use in the present invention as hereinbefore defined are not soluble in water unless the water comprises a thiosulphate. Thus preferably the bleach-fix accelerators of use in the present invention are added to a bleach-fix bath which comprises thiosulphate or to a stop-fix bath which comprises thiosulphate.

According to another embodiment of the present invention there is provided a stable bleach-fix bath which comprises an aqueous solution of a mild oxidising agent, as hereinbefore defined, a water-soluble thiosulphate and a bleach-fix accelerator which is either a selenosemicarb azide-metal complex as hereinbefore defined or a selenourea-metal complex as hereinbefore defined.

Preferably in this aspect of the invention the mild oxidising agent is a ferric chelate complex or a diaquo-tetraamine-cobalt (III) complex.

It is preferred that the concentration of selenosemicarbazide-metal complex or selenourea-metal complex present in the bleach-fix bath is greater than 1 mg. per litre of bleach-fix bath. The most preferred amount being t1)5'0hmg. of bleach-fix accelerator per litre of bleach-fix It is preferred that the concentration of selenosemicarbazide-metal complex or selenourea-metal complex present in the stop-fix bath, stop bath or in a wash bath, is greater than 1 mg. per litre of the solution.

The selenourea-metal complexes of use in the present invention are more resistant to air oxidation and photochemical decomposition than the selenoureas from which they are prepared. The metal-complex compounds may be stored under normal conditions and dry-packed with only a minimum risk of the compounds deteriorating. On the other hand selenoureas stored under normal conditions or dry-packed soon turn first pink and then black probably 10 same time showed no analytically detectable decompo- 20 sition.

Selenosemicarbazide metal complexes offer similar advantages.

The following preparation of a complex of selenoureasilver thiosulphate is illustrative of the general method of 25 preparation of the metal complexes of use in the present invention as bleach-fix accelerators.

Preparation A solution containing boric acid (22.5 g.), borax (12.5 g.), sodium thiosulphate pentahydrate (95 .0 g.), water to 1 litre was prepared (Solution A). The pH of this solution was 7.04.

Silver nitrate (0.0060 moles) was dissolved in 10 m1. of water. Sodium hydrogen carbonate (1.0 g.) was added to this solution. It produced evolution of carbon dioxide and a yellow precipitate. 25 ml. of Solution A was added to the suspension and the resulting mixture was again a clear solution (Solution B).

Selenourea (0.0060 moles) was dissolved in 50 ml. of Solution A and the resulting solution was added to Solution B. The white precipitate obtained was filtered, washed with water and then with methanol and dried under reduced pressure. Analytical results indicated the formula:

The selenourea-metal complexes may be prepared as follows.

A given volume of a 0.1 molar solution of the metal salt is prepared by dissolving the required quantity of metal salt in water or in a relatively strong acid solution. (An acid solution is necessary when salts of easily hydrolysed metal ions are involved, e.g. bismuth and antimony). This solution of the metal salt is added to a volume of 0.3 molar solution of the selenourea in 2 normal acid. The volume of the selenourea solution used is such that the molar ratio between the selenourea and the metal ion should be slightly greater than 2. This addition is carried out at 40 C. and, in the case of easily oxidised metals, all the preparation should be carried out under nitrogen. The complex salt precipitates soon or a few minutes after cooling.

The selenosemicarbazide metal complex, ie the complexes formed between the list of metals hereinbefore set forth and the compound of Formula II, may be prepared similarly except that the molar ratio between the selenosemicarbazide and the metal ion may be greater than 1.

The following example will serve to illustrate the use of a selenourea-metal complex as a bleach-fix accelerator.

EXAMPLE I Samples from a batch of a colour negative tripack material of the colour coupler substantive type containing 73.6 mg. of silver per dm. as silver iodo'bromide emulsion were fogged and processed at 24 C.

Details of the colour film used are as follows:

Layer order and Silver coating weight in sensitivity mg. of Ag/dicemetre 2 Non Stress Blue sensitive 13.4 Colloidal silver filler layer Green sensitive topcoat 13.1 Intralayer Green sensitive subcoat 16.0 Interlayer Red sensitive topcoat 17.5 Red sensitive subcoat 13.6

Base of cellulose triacetate Total 73 .6

In this film: the blue sensitive layer contained a yellow colour coupler of the formula:

the green sensitive layers each contained a magenta colour coupler of the formula:

SOzH

CHQO C O 02H;

CHZOC O 03H;

the red sensitive layers each contained a cyan colour 5 coupler of the formula:

g: mHa1 on N A OI ONH- The processing sequence was:

Colour development: 6 minutes Sodium metabroate g 53.3 Sodium hydroxide g 2.0 Sodium sulphite anhydrous g 3.9 Potassium bromide g 0.70 Hydroxylamine sulphate g 2.34 Sodium sulphate anhydrous g 7.8 4-amino-N-ethyl-N-(4-hydroxybutyl) aniline sulphate g 6.0 Water to 1 litre.

7 Stop-fix: 4 minutes Sodium thiosulphate pantahydrate g 171.0 Sodium acetate anhydrous g 31.4 Sodium sulphite anhydrous g 4.3 Acetic acid (glacial) ml 35 Potassium alum g 17.0 Ammonium chloride g 43.0 Water to 1 litrepH 4.3. Wash: 4 minutes Bleach-fix: 6 minutes Disodium tetraborate decahydrate g 12.5 Boric acid g 22.5 Sodium hydroxide g 10.0 Ethylene diaminetetraacetic acid g 16.2 Disodium salt of ethylenediaminetetraacetic acid dihydrate g 3.5 Ferric chloride 60% w./v. soln) "ml..- 15 Sodium thiosulphate pentahydrate g 95.0 Sodium sulphite anhydrous g 4.0 Magnesium sulphate g 12.5 Water to 1 litre.

pH 7.0. Wash: 4 minutes Conditioner: 4 minutes Disodium salt of ethylenediaminetetraacetic acid dihydrate g 0.50 Sodium carbonate anhydrous g 4.5 Formaldehyde (40% w./v. soln) ml 10 Lissapol N (8% soln) ml 1.7 Water to 1 litre.

Wash: 4 minutes After processing the remaining samples were analysed and were found to contain 13,84 mg. of metallic silver per square decimetre. Other samples of the same negative material were fogged and processed as above but bleach fixed for 12 minutes, after processing they were found to contain 9.81 mg. of metallic silver per square decimeter. These results were used as a control for a series of tests wherein samples of the same negative material were fogged and processed as above except that in Series A selenourea-silver chloride complex was added to the stopfix bath and in the Series B selenourea-silver chloride complex was added to the bleach-fix bath.

The eifect of the addition of these bleach-fix accelerators to the bleach-fix bath and to the stop-fix bath is shown in Table I below wherein the amount of residual metallic silver in the negative material after processing is given. The values refer to bleach-fixing times of 6 and 12 minutes.

TABLE I Concentration Residual silver afterwhich the acceler- 6' bleach 12 bleach accelerator ator (mg.l fixing fixing Accelerator used was added litre) (mgJdm. I (mgJdm. 1

Control 13. 84 9. 81

Series A (selenou- Stop-fix--. 400 0. 81 0. 54

reahAg 01.

Series B (selenou- B1eaeh-fix... 150 0.86 0.36

reahAg 01.

8 EXAMPLE n A positive tripack colour material intended for the silver dye-bleach system comprising silver halide emulsions containing bleachable azo-dyes Cibachrome manufactured by Ciba Geigy A6. of Switzerland was given a neutral wedge exposure and processed, the processing sequence being as follows:

Sulphuric acid, 96% ml 27.5 Potassium iodide g 10 Solution of 0.3 g. 2,3-dimethyl-G-aminoquinoxaline in 50 ml. ethanol ml 15 Water to 1 litre. Wash: 4 minutes Bleach-fix: '6 minutes Disodium tetraborate decahydrate g 12.5 Boric acid g 22.5 Sodium hydroxide g 10.0 Ethylenediaminetetraacetic acid g 16.2 Disodium salt of ethylenediaminetetraacetic acid dihydrate g 3.5 Ferric chloride (60% w./v. soln) ml 15 Sodium thiosulphate pentahydrate g 95.0 Sodium sulphite anhydrous g 4.0 (Selenourea) AgCl mg Water to 1 litre. Wash: 8 minutes Dry The processed material was satisfactory and substantially no residual silver was left in the material even in the areas of high exposure. Similar silver-dye-bleach material was exposed and processed using the same solutions as set forth above except that the bleach-fix solution contained no selenourea-silver complex. Even when the material had been treated in the bleach-fix bath for 25 minutes it was unsatisfactory because it had a high minimal density due to the incomplete removal of the residual silver in the areas of high exposure.

I claim as my invention:

1. In the processing of colour photographic material comprising silver halide emulsion layers to yield material having colour dye images therein the bleach-fix step which comprises treating the photographic material with a stable bleach-fix bath which comprises an aqueous solution of a mild oxidising agent and a silver halide solvent which is either a water-soluble thiosulphate or a water-soluble thiocyanate in the presence of a solution of a bleach-fix accelerator which comprises a complex consisting of a metal selected from iron, cobalt, nickel, copper, zinc, palladium, silver, cadmium, indium, tin, antimony, platinum, gold, mercury, lead and bismuth and a selenium compound selected from (a) selenourea, (b) an N-alkyl substituted selenourea of the formula:

wherein R R and R are hydrogen atoms or alkyl groups, at least one of them being a hydrogen atom, and (c) a selenosemicarbazide of the formula:

Ra Illa: SIe /R24 N N 2.1N\ R22 25 wherein one of R and R is a hydrogen atom or an alkyl, aralkyl or aryl group and the other of R and R is a hydrogen atom or an alkyl group, R is a hydrogen atom or an alkyl, aralkyl or aryl group, one of R and R is a hydrogen atom or an alkyl, aralkyl or aryl group and the other of R and R is a hydrogen atom or an alkyl group but at least one of R R or R being a hydrogen atom and there being not more than one group selected from 'aryl and aralkyl present in the compound, said oxidizing agent being strong enough to bleach the silver but not strong enough to oxidise the silver halide solvent.

2. A process according to claim 1 wherein the mild oxidising agent is a ferric chelate complex.

3. A process according to claim 2 wherein the ferric chelate complex is ferric ethylenediaminetetraacetic acid complex.

4. A process according to claim 1 wherein the bleach-fix accelerator is present in the bleach-fix bath.

5. A stable bleach-fix bath which comprises an aqueous solution of a mild oxidising agent, a thiosulphate and as a bleach-fix accelerator a complex consisting of a metal selected from iron, cobalt, nickel, copper, zinc, pallladium, silver, cadmium, indium, tin, antimony, platinum, gold, mercury, lead and bismuth and a selenium compound selected from (a) selenourea, (b) an N-alkyl substituted wherein R R and R are hydrogen atoms or alkyl groups, at least one of them being a hydrogen atom, and (c) a selenosemicarbazide of the formula:

wherein one of R and R is a hydrogen atom or an alkyl, aralkyl or aryl group and the other of R and R is a hydrogen atom or an alkyl group,'R is a hydrogen atom or an alkyl, aralkyl or aryl group, one of R and R is a hydrogen atom or an alkyl, aralkyl or aryl group and the other of R and R is a hydrogen atom or an alkyl group but at least one of R R or R being a hydrogen atom and there being not more than one group selected from aryl and aralkyl present in the compound, said oxidising 10 agent being strong enough to bleach the silver but not strong enough to oxidise the silver halide solvent.

6. A stable bleach-fix bath according to claim 5 wherein the mild oxidising agent is a ferric chelate complex.

7. A stable bleach-fix bath according to claim 6 wherein the ferric chelate complex is ferric ethylenediaminetetraacetic acid complex.

8. A stable bleach-fix bath according to claim 5 wherein the concentration of bleach-fix accelerator is greater than 1 mg. per litre of bleach-fix bath.

9. A stop-fix bath which comprises an aqueous acid solution of a thiosulfate and a complex consisting of a metal selected from iron, cobalt, nickel, copper, zinc, palladium, silver, cadmium, indium, tin, antimony, platinum, gold, mercury, lead and bismuth and a selenium compound selected from (a) selenourea, (b) an N-alkyl substituted selenourea of the formula:

wherein R R and R are hydrogens atoms or alkyl groups, at least one of them being a hydrogen atom, and (c) av seleuosemicarbazide of the formula:

wherein one of R and R is a hydrogen atom or an alkyl, aralkyl or aryl group and the other of R and R is a hydrogen atom or an alkyl group, R is a hydrogen atom or an alkyl, aralkyl or aryl group, one of R and R is a hydrogen atom or an alkyl or aryl group and the other of R and R is a hydrogen atom or an alkyl group but at least one of R R or R being a hydrogen atom and there being not more than one group selected from aryl and aralkyl present in the compound.

References Cited UNITED STATES PATENTS 2,770,542 11/1956 Burt 96-57 3,189,452 6/1965 Bard et al. 9656 3,619,188 11/1971 Alcock et a1 9660 OTHER REFERENCES Mautner et al., Journal of American Chemical Society, vol. 78, pp. 97-101 1956).

J. TRAVIS BROWN, Primary Examiner US. Cl. X31.

96-60BF, 61 R, 62