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EP0654705A2 - Photographische Verarbeitungszusammensetzung und Verarbeitungsverfahren - Google Patents

Photographische Verarbeitungszusammensetzung und Verarbeitungsverfahren Download PDF

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Publication number
EP0654705A2
EP0654705A2 EP94118434A EP94118434A EP0654705A2 EP 0654705 A2 EP0654705 A2 EP 0654705A2 EP 94118434 A EP94118434 A EP 94118434A EP 94118434 A EP94118434 A EP 94118434A EP 0654705 A2 EP0654705 A2 EP 0654705A2
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EP
European Patent Office
Prior art keywords
group
acid
iii
formula
salt
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Application number
EP94118434A
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English (en)
French (fr)
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EP0654705B1 (de
EP0654705A3 (de
Inventor
Ryo Suzuki
Hisashi Okada
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Fujifilm Holdings Corp
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Fuji Photo Film Co Ltd
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Publication of EP0654705A3 publication Critical patent/EP0654705A3/de
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Publication of EP0654705B1 publication Critical patent/EP0654705B1/de
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Classifications

    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03CPHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR, STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY
    • G03C5/00Photographic processes or agents therefor; Regeneration of such processing agents
    • G03C5/26Processes using silver-salt-containing photosensitive materials or agents therefor
    • G03C5/29Development processes or agents therefor
    • G03C5/305Additives other than developers
    • G03C5/3053Tensio-active agents or sequestering agents, e.g. water-softening or wetting agents
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03CPHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR, STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY
    • G03C5/00Photographic processes or agents therefor; Regeneration of such processing agents
    • G03C5/26Processes using silver-salt-containing photosensitive materials or agents therefor
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03CPHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR, STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY
    • G03C7/00Multicolour photographic processes or agents therefor; Regeneration of such processing agents; Photosensitive materials for multicolour processes
    • G03C7/30Colour processes using colour-coupling substances; Materials therefor; Preparing or processing such materials
    • G03C7/407Development processes or agents therefor
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03CPHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR, STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY
    • G03C7/00Multicolour photographic processes or agents therefor; Regeneration of such processing agents; Photosensitive materials for multicolour processes
    • G03C7/30Colour processes using colour-coupling substances; Materials therefor; Preparing or processing such materials
    • G03C7/42Bleach-fixing or agents therefor ; Desilvering processes

Definitions

  • This invention relates to an ecologically excellent processing composition for silver halide photographic materials and a method for processing silver halide photographic materials using such a processing composition.
  • silver halide black-and-white (hereinafter abbreviated as B/W) light-sensitive materials are processed in the order of exposure, B/W development, fixing, washing, and the like; silver halide color light-sensitive materials are processed in the order of exposure, color development, desilvering, washing, stabilization, etc.; and silver halide color reversal light-sensitive materials are processed in the order to exposure, B/W development, reversal processing, color development, desilvering, washing, stabilization, etc.
  • the exposed light-sensitive silver halide grains are reduced to silver by a color developing agent in a color developer, and the thus produced oxidation product of the color developing agent reacts with a coupler to form a dye.
  • the developed silver is oxidized (bleached) to a silver salt by an oxidizing agent (bleaching agent).
  • the silver salt and unreacted silver halide are solubilized by a fixing agent and removed from the photographic material (fixing). Bleaching and fixing are carried out either individually or simultaneously.
  • James The Theory of Photographic Process, 4th Ed., (1977), Research Disclosure No. 17643, pp. 28-29 (Dec., 1978), ibid, No. 18716, p. 651, left to right columns (Nov., 1979), and ibid, No. 307105, pp. 880-881 (Nov., 1989).
  • auxiliary steps such as washing, stabilization, hardening, and stopping, are conducted for assuring photographic and physical qualities of a dye image or for maintaining stability of processing.
  • Photographic processing today is conducted in a variety of places from photofinishing laboratories equipped with large- scaled automatic developing machines to camera stores having a small-scaled automatic developing machine which is called "mini-labo". Under such a circumstances, reduction in processing performance has given rise to a problem.
  • Influences of the ions undesirably incorporated into a processing solution depend on the ions and the processing solution. More specifically, Ca and Mg ions, if incorporated into a developing solution, react with a carbonate used as a buffering agent to form sediment or sludge, which causes clogging of a filter used in the circulatory system of a developing machine and contamination of films.
  • An Fe ion as in a transition metal salt if incorporated into a developing solution, causes decomposition of a p-phenylenediamine color developing agent, a B/W developing agent (e.g., hydroquinone or Methol) or a preservative (e.g., hydroxylamine or a sulfite), leading to considerable reduction in photographic performance.
  • transition metal ions e.g., an Fe ion
  • a bleaching solution containing hydrogen peroxide or a persulfate markedly reduces the stability of the solution, resulting in insufficient bleaching.
  • Incorporation of transition metal ions into a fixing solution containing a thiosulfate as usual also reduces the stability of the solution, resulting in formation of turbidity or sludge, which would cause clogging of the filter set in an automatic development machine to reduce the circulating flow of the processing solution. It follows that fixing would be insufficient, and the films may be contaminated. These disorders that might occur in a fixing solution also develop in the subsequent washing step.
  • a stabilizer prepared from hard water containing large quantity of calcium and magnesium is likely to suffer from growth of bacteria fed on these ions as nutrients, which makes the solution turbid to cause film contamination.
  • Transition metal ions e.g., an Fe ion, incorporated into the stabilizer remain on films to deteriorate film preservability.
  • a chelating agent as a sequestering agent, such as aminopolycarboxylic acids, e.g., ethylenediaminetetraacetic acid or diethylenetriaminepentaacetic acid; and organophosphonic acids, e.g., alkylidenediphosphonic acids.
  • aminopolycarboxylic acids e.g., ethylenediaminetetraacetic acid or diethylenetriaminepentaacetic acid
  • organophosphonic acids e.g., alkylidenediphosphonic acids.
  • ethylenediaminetetraacetic acid is highly effective to scavenge Ca ions but, when added to a developing solution, accelerates decomposition of a developing agent or a preservative for a developing agent in the presence of an Fe ion, resulting in an reduction in image density or an increase in fog.
  • An alkylidenediphosphonic acid does not produce such an adverse effect even in the presence of an Fe ion but, instead, produces solid matter in a processing solution prepared from hard water having a high Ca content, also causing troubles of a developing machine.
  • the materials after B/W development are processed with a processing solution called a reducer containing an oxidizing agent chiefly for gradation control.
  • the oxidizing agent which is used for bleaching of silver halide color light-sensitive materials or for reduction of silver halide B/W light-sensitive materials generally includes ethylenediaminetetraacetato iron (III) complex salts and 1,3-diaminopropanetetraacetato iron (III) complex salts, but they are hardly biodegraded. Therefore, it has been demanded to develop a biodegradable oxidizing agent as a bleaching agent for color silver halide light-sensitive materials or as a reducing agent for B/W silver halide light-sensitive materials.
  • Biodegradable bleaching agents so far proposed include N-(2-carboxymethoxyphenyl)iminodiacetato ferrates as disclosed in West German Patent Publication (OLS) No. 3912551, ,8-alaninediacetato ferrates and glycinedipropionato ferrates as disclosed in EP-A-430000, and ethylenediamine-N,N-disuccinato ferrates as disclosed in JP-A-5-72695.
  • OLS West German Patent Publication
  • EP-A-430000 glycinedipropionato ferrates
  • JP-A-5-72695 ethylenediamine-N,N-disuccinato ferrates
  • a processing solution having bleaching ability containing such a biodegradable bleaching agent is not always effective in desilvering.
  • a bleaching bath containing these biodegradable bleaching agents when used continuously, gives rise to various problems with time, such as reduction of desilvering properties, development of bleach fog, fogging of unexposed areas in the subsequent color development step due to incorporation of the bleaching bath into the color developing bath, and insufficient prevention of staining with time.
  • a first object of the present invention is to provide a photographic processing composition which does not form sediment or sludge even when metallic ions are incorporated thereinto and a method for processing using the same.
  • a second object of the present invention is to provide a stable processing composition which undergoes no reduction of the active component or forms no component having photographically adverse influences even when metallic ions are incorporated thereinto and a method for processing using the same.
  • a third object of the present invention is to provide a processing composition which suppresses reduction in image preservability of a light-sensitive material due to residual metallic ions originated from the processing composition and a method for processing using the same.
  • a fourth object of the present invention is to provide a processing composition which gives rise to no environmental problem after discharged and a method for processing using the same.
  • a fifth object of the present invention is to provide a processing composition which hardly suffers from proliferation of mold or bacteria and a method for processing using the same.
  • a sixth object of the present invention is provide a processing composition which is easy to handle and gives rise to no environmental problem and a method for processing using the same.
  • a seventh object of the present invention is to provide a processing composition having bleaching ability which exhibits excellent desilvering performance even in a low concentration and a method for processing using the same.
  • An eighth object of the present invention is provide a processing composition having bleaching ability which is less causative of bleach fog and a method for processing using the same.
  • a ninth object of the present invention is to provide a processing composition having bleaching ability which is less causative of stains with time and a method for processing using the same.
  • a tenth object of the present invention is to provide a processing composition which stably maintains the above-mentioned performance properties even in continuous processing and a method for processing using the same.
  • An eleventh object of the present invention is to provide a processing composition which is advantageous particularly from the standpoint of biodegradability and environmental conservation and a method for processing using the same.
  • a twelfth object of the present invention is to provide a processing composition having bleaching ability which, even when incorporated into a preceding developing solution, has little adverse influence on photographic properties and does not interfere with the developing solution in maintaining its function stably, and a method for processing using the same.
  • the first to fifth objects of the present invention are accomplished by a first embodiment consisting of a photographic processing composition for a silver halide light-sensitive material and a method for processing using the same, in which the processing composition contains at least one of a compound represented by formula (I) or a salt thereof (hereinafter referred to as compound (1)): wherein R 1 represents an aliphatic group or an aromatic group; R 2 , R 3 , and R 4 each represents a hydrogen atom, an aliphatic group or an aromatic group; L 1 represents a divalent linking group selected from an alkylene group, an arylene group, and a combination thereof; W 1 and W 2 each represents a divalent linking group containing an alkylene group or an arylene group; W 3 represents a divalent linking group containing an alkylene group; A represents a carboxyl group, a phosphono group, a sulfo group or a hydroxyl group; A 2 represents a carboxyl group, a phosphono group or a
  • the sixth to twelfth objects of the present invention are accomplished by a second embodiment consisting of a photographic processing composition for a silver halide light-sensitive material and a method for processing using the same, in which the processing composition contains at least one of Fe (III), Mn (III), Co (III), Rh (II), Rh (III), Au (II), Au (III) and Ce (IV) chelate compounds of compound (I) (inclusive of a salt thereof) (hereinafter referred to as metal chelate compound (I)).
  • the processing solution containing metal chelate compound (I) is particularly useful as a processing solution having bleaching ability.
  • the aliphatic group as represented by Ri, R 2 , R 3 , and R 4 may be straight, branched or cyclic and may be saturated or unsaturated.
  • the aliphatic group includes an alkyl group, an alkenyl group, an alkynyl group, and a cycloalkyl group, with an alkyl group being preferred.
  • the aliphatic group preferably has 1 to 10 carbon atoms.
  • the alkyl group more preferably has 1 to 4 carbon atoms, with a methyl group and an ethyl group being particularly preferred.
  • the aliphatic group as R i , R 2 , R 3 , and R 4 may be substituted or unsubstituted, preferably substituted.
  • Substituents which may be on the aliphatic groups include an alkyl group (e.g., methyl, ethyl), an alkenyl group (e.g., allyl), an alkynyl group, an alkoxy group (e.g., methoxy, ethoxy), an aryl group (e.g., phenyl or p-methylphenyl), an acylamino group (e.g., acetylamino), a sulfonylamino group (e.g., methanesul- fonylamino), a ureido group, an alkoxycarbonylamino group (e.g., methoxycarbonylamino), an aryloxycarbonylamino group (e.g., phenoxy
  • the aromatic group as represented by R i , R 2 , R 3 , and R 4 may be a monocyclic group or a condensed polycyclic group, may be an aromatic hydrocarbon ring or an aromatic heterocyclic ring, and may be substituted or unsubstituted.
  • the aromatic group preferably contains 5 to 15 carbon atoms.
  • the aromatic group is preferably a monocyclic or bicyclic aromatic hydrocarbon group (aryl group) having 6 to 10 carbon atoms, more preferably a substituted or unsubstituted phenyl or naphthyl group, and most preferably a substituted phenyl group.
  • Substituents which may be on the aromatic group are selected from those enumerated as for the aliphatic group Ri.
  • R 4 preferably represents a hydrogen atom.
  • the alkylene group in L i , W i , W 2 , and W 3 may be straight, branched or cyclic, and is preferably a straight-chain or branched alkylene group having 1 to 10 carbon atoms, still preferably 1 to 6 carbon atoms.
  • the alkylene group may be substituted or unsubstituted. Substituents therefor are selected from those recited above as for the aliphatic group Ri.
  • Preferred substituents among them are a carboxyl group, a phosphono group, a sulfo group, a hydroxyl group, a substituted or unsubstituted alkyl group having 1 to 3 carbon atoms, and a substituted or unsubstituted aryl group having 6 to 10 carbon atoms (substituents on the alkyl or aryl group including a carboxyl group and a hydroxyl group).
  • Still preferred among them are a carboxyl group, a hydroxyl group, a carboxyl-substituted alkyl group, a hydroxy-substituted alkyl group, an unsubstituted aryl group, a carboxyl-substituted aryl group, and a hydroxy-substituted aryl group.
  • the arylene group in L i , W 1 , and W 2 is preferably a monocyclic or bicyclic aromatic hydrocarbon group which may be substituted or unsubstituted. Substituents therefor are selected from those recited above as for the aliphatic group Ri.
  • the arylene group in L 1 , Wi, and W 2 preferably has 6 to 10 carbon atoms, and is still preferably a phenylene group or a naphthylene group, with a phenylene group being particularly preferred.
  • the alkylene/arylene combination as L 1 includes a substituted or unsubstituted aralkylene group, the substituent of which is selected from those enumerated as for the aliphatic group Ri.
  • the aralkylene group preferably contains 7 to 12 carbon atoms.
  • L 1 preferably represents an alkylene group.
  • a 1 preferably represents a carboxyl group, a hydroxyl group or a phosphono group, still preferably a carboxyl group or a hydroxyl group.
  • a 2 preferably represents a carboxyl group.
  • W 1 and W 2 each preferably includes linking groups represented by formula (W-1): wherein W a and W b each represents an alkylene group, an arylene group or an aralkylene group; Z 1 represents -O-, -S-or -N(R 5 )-; n represents 0, 1, 2 or 3; when n is 2 or 3, (W a -Z 1 )'s may be the same or different; k represents 1, 2 or 3; when k is 2 or 3, W b 's may be the same or different; and R 5 represents a hydrogen atom, an aliphatic group or an aromatic group.
  • W a and W b each represents an alkylene group, an arylene group or an aralkylene group
  • Z 1 represents -O-, -S-or -N(R 5 )-
  • n represents 0, 1, 2 or 3; when n is 2 or 3, (W a -Z 1 )'s may be the same or different;
  • k represents 1,
  • alkylene, arylene and aralkylene groups as W a and W b are the same as explained above for W 1 and W 2 .
  • W a and W b each preferably represents an alkylene group, still preferably an alkylene group having 1 to 4 carbon atoms, with a methylene group and an ethylene group being particularly preferred.
  • the aliphatic group and the aromatic group as R 5 are as explained above with respect to R 1 .
  • W 1 and W 2 inclusive of those represented by formula (W-1), are shown below.
  • W 3 preferably represents a divalent linking group represented by formula (W-2): wherein W c and W d each represents an alkylene group; Z 2 represents -O-, -S- or -N(R 6 )-; e represents 0, 1, 2 or 3; when e is 2 or 3, (W c -Z 2 )'s may be the same or different; and R 6 represents a hydrogen atom, an aliphatic group or an aromatic group.
  • the alkylene group as W c and W d are the same as explained above for W 1 and W 2 .
  • W c and W d each preferably represents an alkylene group having 1 to 4 carbon atoms, with a methylene group and an ethylene group being still preferred.
  • the aliphatic or aromatic group as R 6 are as explained with respect to those for R 1 . preferably represents 0 or 1, still preferably 0.
  • W 3 inclusive of those represented by formula (W-2), are shown below.
  • -CH 2 - -CH 2 0CH 2 - , -CH 2 0CH 2 CH 2 0CH 2 - , -CH 2 SCH 2 - ,
  • W 1 , W 2 , and W 3 each preferably represents an alkylene group, still preferably an alkylene group having 1 to 4 carbon atoms, with a methylene group and an ethylene group being particularly preferred.
  • n 1 , m 2 , and m 3 each represents 0 or 1.
  • m 1 and m 3 are each preferably 0, and m 2 is preferably 1.
  • W 1 , W 2 , W 3 , m 1 , m 2 , m 3 , and L 1 are as defined in formula (I);
  • R 7 and R 8 each independently represents a hydrogen atom or -L 1 "-A 3 ";
  • L 1 ' and L 1 " each has the same meaning as L 1 defined in formula (I);
  • L 1 , L 1 ', and L 1 " may be the same or different;
  • A3, A 3 ', and A3" each represents a carboxyl group or a salt thereof, a phosphono group or a salt thereof, or a combination thereof, the counter cation in the salt being an alkali metal, ammonium, pyridinium, etc.;
  • M represents a hydrogen atom or a cation (e.g., an alkali metal, ammonium, etc.).
  • L 1 and L 1 ' do not simultaneously represent a methylene group substituted with a carboxylmethyl group.
  • the compound represented by formula (I) may be a salt formed with an organic or inorganic cation, such as an ammonium salt (e.g., an ammonium salt, a tetraethylammonium salt), an alkali metal salt (e.g., a lithium salt, a sodium salt, a potassium salt), or an acid salt (e.g., a hydrochloride, a sulfate, an oxalate).
  • an ammonium salt e.g., an ammonium salt, a tetraethylammonium salt
  • an alkali metal salt e.g., a lithium salt, a sodium salt, a potassium salt
  • an acid salt e.g., a hydrochloride, a sulfate, an oxalate
  • Compound (I) can be synthesized by reacting a diamine compound with a halogen-substituted alkylcarboxylic acid or a salt thereof (process A) or with a ⁇ -substituted acrylic acid or a salt thereof (process B) as shown in the following reaction schemes:
  • W 1 , W 2 , W 3 , Ri, R 2 , m1, m 2 , m 3 , and A 2 have the same meanings as those in formula (I); L has the same meaning as L 1 in formula (I); plural L's may be the same or different; Ma represents a hydrogen atom or a cation; and R a has the same meaning as R 1 in formula (I).
  • the combined chloroform layer was washed successively with 40 ml of an ice-cooled 0.1 M sodium hydroxide aqueous solution, 40 ml of water, two 40 ml portions of 0.05N hydrochloric acid, and two 40 ml portions of water.
  • the organic layer was dried over anhydrous magnesium sulfate and concentrated under reduced pressure.
  • To the concentrate was added 60 ml of ethyl ether, followed by stirring, whereupon crystals were precipitated, which were collected by filtration, washed with ethyl ether, and dried to obtain 14.1 g (0.029 mol; yield: 68.2%) of diethyl meso-2,5-diphthalimidoadipate as an intermediate product.
  • the filtrate was concentrated under reduced pressure to remove hydrochloric acid as much as possible, and 50 ml of water was added thereto. Any insoluble matter was separated by filtration, and the filtrate was adjusted to pH 5 with a 5N sodium hydroxide aqueous solution and allowed to stand at 0°C. The thus formed white crystals were collected and dried to obtain 4.2 g (0.023 mol; yield: 79.9%) of meso-2,5-diaminoadipic acid hemihydrate as an intermediate product.
  • the mixture was heated at 40°C while stirring on a warm water bath, and a 5N sodium hydroxide aqueous solution was further added thereto dropwise so as to keep the pH of the reaction system between 9 and 10.
  • the reaction mixture was allowed to cool to room temperature, and 200 ml of methanol was added.
  • the thus formed glutinous matter was thoroughly washed with methanol, and 50 ml of water was added, followed by removal of methanol by evaporation under reduced pressure.
  • To the residue was added 10 ml of 36% hydrochloric acid, followed by concentration at 60 ° C under reduced pressure, and water was again added to the residue, followed by removal of hydrochloric acid under reduced pressure.
  • Compound (I) is applicable to all the processing compositions used for processing silver halide B/W or color light-sensitive materials.
  • a B/W developer for general use, a lith infectious developer, a fixer, washing water (or a washing solution), etc. for B/W light-sensitive materials; and a color developer, a bleaching bath, a fixer, a blix bath, a compensating bath, a stop bath, a hardener, washing water (or a washing solution), a stabilizer, a rinsing solution, a fogging solution, a toning solution, etc. for color light-sensitive materials.
  • the amount of compound (I) to be added to these processing compositions usually ranges from 10 mg to 50 g per liter, while being subject to variation according to the processing composition as hereinafter described in more detail.
  • the amount to be added to a B/W developer or a color developer is preferably from 0.5 to 10 g/l, still preferably from 0.5 to 5 g/l.
  • Addition of compound (I) to a B/W or color developer is effective to prevent formation of sediment or sludge and to prevent decomposition of a developing agent or a preservative thereby to suppress variations of photographic characteristics, such as sensitivity and gradation.
  • the amount to be added to a bleaching solution is preferably from 0.1 to 20 g/R, still preferably from 0.1 to 5 g/l. Addition of compound (I) to a bleaching solution is effective to improve the stability of the bath and to prevent insufficient bleach.
  • the amount to be added to a fixer or a blix bath is preferably from 1 to 40 g/l, still preferably from 1 to 20 g/l.
  • Use of compound (I) in a fixer or a blix bath is effective to improve the stability of the bath, to prevent formation of turbidity or sludge, and to prevent staining of non-image areas after processing.
  • the amount to be added to a washing solution or a stabilizer is preferably from 50 mg to 1 g/l, still preferably from 50 to 300 mg/l.
  • Use of compound (I) in these processing solutions is effective in prevention of turbidity, retention of dye image preservability, and prevention of staining of non-image areas after processing.
  • compounds (I) may be used either individually or in combination of two or more thereof.
  • Compounds (I) may also be used in combination with various known chelating agents as far as the effects of compounds (I) are not impaired.
  • Examples of useful chelating agents with which compounds (I) may be combined include aminopolycarboxylic acids, such as ethylenediaminetetraacetic acid, diethylenetriaminepentaacetic acid, nitrilotriacetic acid, transcyclohexanediaminetetraacetic acid, 1,2-diaminopropanetetraacetic acid, 1,3-diaminopropanetetraacetic acid, glycol ether diaminetetraacetic acid, iminodiacetic acid, methyliminodiacetic acid, carbamoylmethyliminodiacetic acid, hydroxyethyliminodiacetic acid, and ethylenediamine-N-(,8-hydroxyethyl)-N,N',N'-triacetic acid; organophosphonic acids, such as 1-hydroxyethylidene-1,1-diphosphonic acid, nitrilo-N,N,N-trimethylenephosphonic acid, ethylenediamine-N,N,N
  • a B/W developer preferably contains a hydroquinone developing agent, e.g., hydroquinone, bromohydroquinone, methylhydroquinone, or 2,5-dichlorohydroquinone, and, as an auxiliary developing agent, a p-aminophenol developing agent, e.g., N-methyl-p-aminophenol, or a 3-pyrazolidone developing agent, e.g., 1-phenyl-4-methyl-4-hydroxymethyl-3-pyrazolidone.
  • a hydroquinone developing agent e.g., hydroquinone, bromohydroquinone, methylhydroquinone, or 2,5-dichlorohydroquinone
  • a p-aminophenol developing agent e.g., N-methyl-p-aminophenol
  • 3-pyrazolidone developing agent e.g., 1-phenyl-4-methyl-4-hydroxymethyl-3-pyrazolidone.
  • Suitable preservatives for a B/W developer includes sulfite compounds, such as sodium sulfite, potassium sulfite, sodium bisulfite, potassium metabisulfite, formaldehyde-sodium bisulfite.
  • a B/W developer preferably has a pH between 9 and 13.
  • Alkalis to be used for pH adjustment include sodium hydroxide, potassium hydroxide, sodium carbonate, and potassium carbonate.
  • the developer may further contain pH buffering agents, such as boric acid, borax, silicates, sodium tertiary phosphate, and potassium tertiary phosphate.
  • a development inhibitor such as potassium bromide or potassium iodide
  • an organic solvent such as ethylene glycol, diethylene glycol, triethylene glycol, dimethylformamide, methyl cellosolve, hexylene glycol, ethanol, or methanol
  • an antifoggant such as an indazole derivative, a benzimidazole derivative or a benzotriazole derivative.
  • Other additives which may be incorporated into a B/W developer if desired include development accelerators, such as those described in Research Disclosure, Vol. 176, No. 176
  • a fixer for B/W light-sensitive materials is an aqueous solution at pH 4.2 to 7.0 containing a thiosulfate, e.g., sodium thiosulfate or ammonium thiosulfate, as a fixing agent. It is preferable to use a meso-ionic compound described in JP-A-57-150842 in addition to a thiosulfate.
  • the fixer may further contain a hardening agent, e.g., a water-soluble aluminum salt; tartaric acid, citric acid, gluconic acid or derivatives thereof; a preservative, e.g., a sulfite or a bisulfite; a pH buffering agent, e.g., acetic acid or boric acid; and a pH adjusting agent, e.g., sulfuric acid.
  • a hardening agent e.g., a water-soluble aluminum salt
  • tartaric acid, citric acid, gluconic acid or derivatives thereof e.g., a preservative, e.g., a sulfite or a bisulfite
  • a pH buffering agent e.g., acetic acid or boric acid
  • a pH adjusting agent e.g., sulfuric acid.
  • a color developer is an aqueous alkali solution at pH 9 to 12 containing an aromatic primary amine color developing agent as a main ingredient.
  • Useful color developing agents include aminophenol compounds and p-phenylenediamine compounds, with the latter being preferred.
  • Typical examples of the p-phenylenediamine developing agents are 3-methyl-4-amino-N,N-diethylaniline, 3-methyl-4-amino-N-ethyl-N- ⁇ -hydroxyethylaniline, 4-amino-N-ethyl-N- ⁇ -hydroxyethylaniline, 4-amino-N-ethyl-N-y-hydroxypropylaniline, 4-amino-N-ethyl-N-6-hydroxybutylaniline, 3-methyl-4-amino-N-ethyl-N-#-methanesulfonamidoethylaniline, 3-methyl-4-amino-N-ethyl-,8-methoxy
  • a color developer usually contains a pH buffering agent, such as an alkali metal carbonate (e.g., potassium carbonate), a borate or a phosphate; and a development inhibitor or an antifoggant, such as a chloride (e.g., potassium chloride), a bromide (e.g., potassium bromide), an iodide (e.g., potassium iodide), a benzimidazole compound, a benzotriazole compound, a benzothiazole compound or a mercapto compound.
  • a pH buffering agent such as an alkali metal carbonate (e.g., potassium carbonate), a borate or a phosphate
  • a development inhibitor or an antifoggant such as a chloride (e.g., potassium chloride), a bromide (e.g., potassium bromide), an iodide (e.g., potassium iodide), a benzimidazole compound,
  • a color developer may contain a preservative, such as hydroxylamines (e.g., hydroxylamine, diethylhydroxylamine, bis(sulfonatoethyl)hydroxylamine) and sulfites (e.g., sodium sulfite, sodium bisulfite); an organic solvent, such as ethylene glycol or diethylene glycol; a development accelerator, such as benzyl alcohol, polyethylene glycol, quaternary ammonium salts, and amine compounds; a dye-forming coupler; a completing coupler; an auxiliary developing agent, such as 1-phenyl-3-pyrazolidone; a nucleating agent, such as sodium borohydride or a hydrazine compound; a tackifier; a brightening agent, such as a 4,4'-diamino-2,2'-disulfostilbene compound; and various surface active agents, such as an alkylsulfonic acid, an arylsulfonic
  • a bleaching agent to be used in a bleaching bath or a blix bath includes compounds of polyvalent metals, e.g., iron (III); peracids; quinones; and iron salts.
  • Typical bleaching agents include iron chloride; ferricyanides, bichromates, organic complex salts of iron (III) (e.g., metal complex salts of aminopolycarboxylic acids, e.g., ethylenediaminetetraacetic acid, diethylenetriaminepentaacetic acid, and 1,3-diaminopropanetetraacetic acid); and persulfates.
  • a bleaching bath or a blix bath containing an aminopolycarboxylic acid iron (III) complex salt is used at a pH between 3.5 and 8.
  • a bleaching bath or a blix bath may contain known additives, such as a re-halogenating agent, such as ammonium bromide, sodium bromide, potassium bromide or ammonium chloride; a pH buffering agent, such as ammonium nitrate; and a metal corrosion inhibitor, such as ammonium sulfate.
  • a re-halogenating agent such as ammonium bromide, sodium bromide, potassium bromide or ammonium chloride
  • a pH buffering agent such as ammonium nitrate
  • a metal corrosion inhibitor such as ammonium sulfate.
  • a bleaching bath or a blix bath preferably contains an organic acid for prevention of bleach stain.
  • Organic acids suitable for this purpose are compounds having an acid dissociation constant (pKa) of from 2 to 5.5, such as acetic acid, glycolic acid, and propionic acid.
  • a fixing agent which can be used in a fixer or a blix bath for color light-sensitive materials include thiosulfates, thiocyanates, thioether compounds, thioureas, meso-ionic compounds, and iodides used in quantity.
  • Thiosulfates are generally used, and ammonium thiosulfate is most widely applicable.
  • a combination of a thiosulfate and a thiocyanate, a thioether compound or thiourea is also preferred.
  • a fixer or blix bath may contain preservatives, such as sulfites, bisulfites, carbonyl-bisulfurous acid adducts, and the sulfinic acid compounds described in EP-A-294769; various brightening agents; defoaming agents; surface active agents; polyvinyl pyrrolidone; methanol; buffering agents, such as imidazole; and bleach accelerators, such as compounds having a mercapto group or a disulfide group as described in U.S. Patent 3,893,858, West German Patent 1,290,812, and JP-A-53-95630.
  • preservatives such as sulfites, bisulfites, carbonyl-bisulfurous acid adducts, and the sulfinic acid compounds described in EP-A-294769
  • various brightening agents such as sulfites, bisulfites, carbonyl-bisulfurous acid adducts, and the sulfini
  • a washing solution or a stabilizer may contain bactericides, such as inorganic phosphorous acid, isothiazolone compounds, thiabendazole compounds, and chlorinated bactericides (e.g., sodium dichloroisocyanurate); metal salts, such as a magnesium salt, an aluminum salt, and a bismuth salt; surface active agents; and hardening agents.
  • bactericides such as inorganic phosphorous acid, isothiazolone compounds, thiabendazole compounds, and chlorinated bactericides (e.g., sodium dichloroisocyanurate); metal salts, such as a magnesium salt, an aluminum salt, and a bismuth salt; surface active agents; and hardening agents.
  • a washing solution and/or a stabilizer may further contain various antibacterial or antifungal agents for prevention of formation of fur or generation of mold on a processed light-sensitive material.
  • Such antibacterial or antifungal agents include thiazolylbenzimidazole compounds described in JP-A-57-157244 and JP-A-58-105145, isothiazolone compounds described in JP-A-54-27424 and JP-A-57-8542, chlorophenol compounds, such as trichlorophenol, bromophenol compounds, organotin compounds, organozinc compounds, thiocyanic or isothiocyanic acid compounds, acid amide compounds, diazine or triazine compounds, thiourea compounds, benzotriazole alkylguanidine compounds, quaternary ammonium salts, such as benzalkonium chloride, antibiotics, such as penicillin, and antifungal agents described in J.
  • chlorophenol compounds such as trichlorophenol, bromophenol compounds, organotin compounds, organozinc compounds, thiocyanic or isothiocyanic acid compounds, acid amide compounds, diazine or triazine compounds,
  • Antibact. Antifung. Agents Vol. 1, No. 5, pp. 207-223 (1983). These antibacterial or antifungal agents may be used individually or in combination thereof. Additionally, various bactericides described in JP-A-48-83820 are also useful.
  • a stabilizer may further contain buffering agents for pH adjustment, such as boric acid and sodium hydroxide; sulfiding inhibitors, such as alkanolamines; brightening agents; and so on.
  • the light-sensitive materials which may be processed according to the first embodiment of the present invention include ordinary B/W silver halide light-sensitive materials (for general photographing, X-ray photography or for printing), ordinary multi-layer silver halide color light-sensitive materials (e.g., color negative films, color reversal films, color positive films, color negative films for movies, color paper, reversal color paper, and direct positive color paper), infrared-sensitive material for laser scanners, and diffusion transfer light-sensitive materials (for silver diffusion transfer or color diffusion transfer).
  • ordinary B/W silver halide light-sensitive materials for general photographing, X-ray photography or for printing
  • ordinary multi-layer silver halide color light-sensitive materials e.g., color negative films, color reversal films, color positive films, color negative films for movies, color paper, reversal color paper, and direct positive color paper
  • infrared-sensitive material for laser scanners
  • diffusion transfer light-sensitive materials for silver diffusion transfer or color diffusion transfer.
  • These light-sensitive materials may have a wide variety of layer structures, either single-sided or double-sided, according to the end use, including, for example, a plurality of silver halide emulsion layers sensitive to red, green or blue, a subbing layer, an antihalation layer, filter layers, intermediate layers, a surface protective layer, and the like.
  • the light-sensitive materials are not particularly limited in kind of a support; method of coating; kind of silver halides to be used in silver halide emulsion layers or a surface protective layer (e.g., silver iodobromide, silver iodochlorobromide, silver bromide, silver chlorobromide and silver chloride), grain shape thereof (e.g., cube, plate, sphere), grain size thereof, coefficient of variation of grain size, crystal structure thereof (e.g., core/shell structure, multi-phase structure, or homogeneous phase structure), or method of preparation thereof (e.g., single jet process or double jet process); kind of binders (e.g., gelatin), hardening agents, antifoggants, metal dopants, silver halide solvents, thickeners, emulsion precipitants, dimensional stabilizers, antiblocking agents, stabilizers, stain inhibitors, dye image stabilizers, stain preventing agents, chemical sensitizers, spectral sensitizer
  • the metal salt constituting metal chelate compound (I) according to the second embodiment is selected from salts of Fe (III), Mn (III), Co (III), Rh (II), Rh (III), Au (II), Au (III), and Ce (IV). Preferred of them are Fe (III) salts, Mn (III) salts, and Co (IV) salts, with Fe (III) salts being still preferred.
  • Metal chelate compound (I) of the present invention is not particularly restricted as long as they are complexes formed between compound (I) and the aforesaid metal salt.
  • the complex may be formed in a solution in situ between compound (I) and the metal salt, such as a sodium, ammonium, potassium or lithium salt of ferric sulfate, ferric chloride, ferric nitrate, or ferric phosphate, in a solution.
  • Compound (I) is used in an molar ratio of 1.0 or higher, usually from 1 to 30, to the metallic ion. Where the resulting metal chelate compound has low stability, it is recommended to use compound (I) at a high molar ratio to metallic ion within the above range.
  • a metal chelate compound separately prepared and isolated may be used.
  • metal chelate compounds (I) are shown below for illustrative purposes only but not for limitation.
  • Metal chelate compound (I) acts as an oxidizing agent for a silver halide light-sensitive material, i.e., as a bleaching agent for a color light-sensitive material or as a reducer for a B/W light-sensitive material for photomechanical processing. It performs an especially excellent function as a bleaching agent for a color light-sensitive material.
  • an imagewise exposed and then color developed silver halide color light-sensitive material is processed with a processing composition containing metal chelate compound (I) as a bleaching agent.
  • the second embodiment of the present invention is characterized by a novel oxidizing agent to be added to a processing solution, particularly a bleaching agent to be used in a processing solution having bleaching ability for a color light-sensitive material.
  • a novel oxidizing agent to be added to a processing solution particularly a bleaching agent to be used in a processing solution having bleaching ability for a color light-sensitive material.
  • a wide choice can be made appropriately among those commonly employed.
  • metal chelate compound (I) may be used in any processing solution, such as a fixer or an intermediate bath between color development and desilvering, as well as a processing solution having bleaching ability, it is particularly effective as a bleaching agent of a processing solution having bleaching ability used for color light-sensitive materials, i.e., a bleaching bath or a blix bath, when used in a concentration of from 0.005 to 1 mol per liter.
  • an effective amount of metal chelate compound (I) as a bleaching agent is 0.005 to 1 mol, preferably 0.01 to 0.5 mol, still preferably 0.05 to 0.5 mol, per liter of a processing composition having bleaching ability. It should be mentioned here that metal chelate compound (I) exhibits excellent performance even when used as such a low concentration of from 0.005 to 0.2 mol, preferably 0.01 to 0.2 mol, still preferably 0.05 to 0.18 mol, per liter.
  • metal chelate compound (I) may be used in combination with other known bleaching agents as long as the effects of metal chelate compound (I) are not impaired.
  • Such other bleaching agents are preferably used in a concentration up to 0.01 mol, still preferably up to 0.005 mol, per liter.
  • the other useful bleaching agents include Fe (III), Co (III) or Mn (III) chelate compounds obtained by using the following chelating agents other than compounds (I), persulfates (e.g., peroxodisulfates), hydrogen peroxide, and hydrobromides.
  • the chelating agents for the above Fe (III), Co (III) or Mn (III) chelate compounds are ethylenediaminetetraacetic acid, diethylenetriaminepentaacetic acid, ethylenediamine-N-(#-hydroxyethyl)-N,N',N'-triacetic acid, 1,2-diaminopropanetetraacetic acid, 1,3-diaminopropanetetraacetic acid, nitrilotriacetic acid, cyclohexanediaminetetraacetic acid, iminodiacetic acid, dihydroxyethylglycine, ethyl ether diaminetetraacetic acid, glycol ether diaminetetraacetic acid, ethylenediaminetetrapropionic acid, phenylenediaminetetraacetic acid, 1,3-diaminopropanol-N,N,N',N'-tetramethylenephosphonic acid, ethylenediamine-N,N
  • bleaching agents described in the following publications are also useful: JP-A-63-80256, JP-A-63-97952, JP-A-63-97953, JP-A-63-97954, JP-A-1-93740, JP-A-3-216650, JP-A-3-180842, JP-A-4-73645, JP-A-4-73647, JP-A-4-127145, JP-A-4-134450, JP-A-4-174432, EP-A-430000, and West German Patent Publication (OLS) No. 3912551.
  • the processing solution having bleaching ability which contains metal chelate compound (I) preferably contains a halide, such as a chloride, a bromide or an iodide, as a rehalogenating agent for acceleration of silver oxidation.
  • a halide such as a chloride, a bromide or an iodide
  • An organic ligand capable of forming a sparingly soluble silver salt may be added in place of the halide.
  • the halide is added in the form of a salt with an alkali metal, ammonium, guanidine or an amine, for example, sodium bromide, ammonium bromide, potassium chloride, guanidine hydrochloride or potassium bromide.
  • the rehalogenating agent is suitably used in a processing solution having bleaching ability at a concentration of not more than 2 mol per liter. More specifically, a suitable concentration of the rehalogenating agent in a bleaching bath is from 0.01 to 2.0 mol/î, preferably from 0.1 to 1.7 mol/l, still preferably from 0.1 to 0.6 mol/R; and that in a blix bath is from 0.001 to 2.0 mol/R, preferably from 0.001 to 1.0 mol/î, still preferably from 0.001 to 0.5 mol/t.
  • the processing solution having bleaching ability according to the second embodiment may contain compound (I) per se as has been described with reference to the first embodiment of the present invention.
  • compound (I) per se as has been described with reference to the first embodiment of the present invention.
  • metal chelate compound (I) used has poor stability, it is preferable to add compound (I) in an amount of up to about 30 mols per mole of metal chelate compound (I).
  • the bleaching bath or blix bath may further contain bleaching accelerators, corrosion inhibitors (preventive of corrosion of a processing tank), buffering agents for pH adjustment, brightening agents, defoaming agents, and the like.
  • Useful bleaching accelerators include compounds having a mercapto group or a disulfide group as described in U.S. Patent 3,893,858, German Patent 1,290,812, British Patent 1,138,842, JP-A-53-95630, and Research Disclosure No. 17129 (1978); thiazolidine derivatives described in JP-A-50-140129; thiourea derivatives described in U.S.
  • the mercapto compounds of British Patent 1,138,842 are especially recommended.
  • Suitable corrosion inhibitors include nitrates, such as ammonium nitrate, sodium nitrate, and potassium nitrate.
  • the corrosion inhibitor is used in an amount usually of from 0.01 to 2.0 mol/î, preferably from 0.05 to 0.5 mol/t.
  • the bleaching bath or blix bath has a pH between 2.0 and 8.0, preferably between 3.0 and 7.5.
  • a bleaching or blix bath which is to be used for processing a light-sensitive material for photographing immediately after color development has a pH of 7.0 or lower, preferably 6.4 or lower, in order to suppress bleach fog.
  • an especially preferred pH of the bleaching bath is from 3.0 to 5.0.
  • metal chelate compound (I) tends to become instable at pH of 2.0 or lower. Accordingly, a preferred pH range is from 2.0 to 6.4.
  • a pH range between 3 and 7 is preferred for light-sensitive materials for printing.
  • Suitable buffering agents include organic acids, such as acetic acid, glycolic acid, lactic acid, propionic acid, butyric acid, malic acid, chloroacetic acid, levulinic acid, ureidopropionic acid, formic acid, monobromoacetic acid, monoch- loropropionic acid, pyruvic acid, acrylic acid, isobutyric acid, pivalic acid, aminobutyric acid, valeric acid, isovaleric acid, asparagine, alanine, arginine, ethionine, glycine, glutamine, cysteine, serine, methionine, leucine, histidine, benzoic acid, chlorobenzoic acid, hydroxybenzoic acid, nicotinic acid, oxalic acid, malonic acid, succinic acid,
  • organic acids such as acetic acid, glycolic acid, lactic acid, propionic acid, butyric acid, malic acid, chloroacetic acid, levul
  • These buffering agents may be used in combination of two or more thereof.
  • Preferred of them are organic acids having a pKa of 2.0 to 5.5, with acetic acid, glycolic acid, malonic acid, succinic acid, maleic acid, fumaric acid, picolinic acid, glutaric acid, adipic acid, and a combination of two or more thereof being especially preferred.
  • These organic acids may be used in the form of an alkali metal salt (e.g., lithium salt, sodium salt or potassium salt) or an ammonium salt.
  • the total amount of the buffering agents is suitably 0.1 to 3.0 mol/liter of the processing solution having bleaching ability, preferably 0.1 to 2.0 mol/R, still preferably 0.2 to 1.8 mol/î, most preferably 0.4 to 1.5 mol/l.
  • pH adjustment of the processing solution having bleaching ability may also be effected by using an alkali in combination with the above-mentioned acid.
  • alkali are aqueous ammonia, KOH, NaOH, potassium carbonate, sodium carbonate, imidazole, monoethanolamine, and diethylamine, with aqueous ammonia, KOH, NaOH, potassium carbonate, and sodium carbonate being preferred.
  • the processing composition of the present invention should contain substantially no ammonium ion.
  • substantially no ammonium ion means an ammonium ion concentration of not higher than 0.1 mol/l, preferably not higher than 0.08 mol/t, still preferably not higher than 0.01 mol/l, and most preferably zero.
  • an ammonium ion with other cation species, preferably an alkali metal ion or an alkaline earth metal ion, still preferably an alkali metal ion, particularly a lithium ion, a sodium ion or a potassium ion.
  • other cation species preferably an alkali metal ion or an alkaline earth metal ion, still preferably an alkali metal ion, particularly a lithium ion, a sodium ion or a potassium ion.
  • reduction of ammonium ion concentration can be achieved by, for example, using a sodium or potassium salt of an organic acid iron (III) complex as a bleaching agent, using potassium bromide, sodium bromide, potassium nitrate or sodium nitrate as a rehalogenating agent in the processing solution having bleaching ability, or using potassium hydroxide, sodium hydroxide, potassium carbonate or sodium carbonate as an alkali for pH adjustment.
  • a sodium or potassium salt of an organic acid iron (III) complex as a bleaching agent
  • potassium bromide, sodium bromide, potassium nitrate or sodium nitrate as a rehalogenating agent in the processing solution having bleaching ability
  • potassium hydroxide, sodium hydroxide, potassium carbonate or sodium carbonate as an alkali for pH adjustment.
  • Aeration of the processing solution having bleaching ability is effective for stable maintenance of its photographic performance.
  • Aeration can be carried out by any means known in the art. For example, air is blown into the processing composition or an ejector is used for air absorption.
  • Blowing of air is preferably conducted through such an air diffuser having fine pores as is widely used in air agitation tanks for an activated sludge process.
  • the processing using the processing solution having bleaching ability according to the present invention is preferably carried out with forced agitation. Forced agitation can be effected in the manner described in JP-A-3-33847, p. 8, upper right col., I. 6 to lower left col., I. 2.
  • Bleaching or blix is carried out at a temperature ranging from 30 to 60 ° C, preferably from 35 to 50 ° C.
  • the bleaching and/or blix time is from 10 seconds to 7 minutes, preferably from 10 seconds to 4 minutes, for light-sensitive materials for photographing; and from 5 to 70 seconds, preferably 5 to 60 seconds, still preferably 10 to 45 seconds, for light-sensitive materials for printing. With these processing conditions satisfied, bleaching or blix can be achieved rapidly without involving increase of stain.
  • a light-sensitive material processed with a processing solution having bleaching ability is then subjected to fixing or bleach-fixing (blix).
  • the fixer or blix bath used for preference is described in JP-A-3-33847, p. 6, lower right col., I. 16 to p. 8, upper left col., I. 15.
  • ammonium thiosulfate is generally used as a fixing agent in the desilvering step
  • other known fixing agents such as meso-ionic compounds, thioether compounds, thioureas, iodides (used in quantities), and Hypo, may be used in place of ammonium thiosulfate.
  • the details for these fixing agents are described in JP-A-60-61749, JP-A-60-147735, JP-A-64-21444, JP-A-1-201659, JP-A-1-210951, JP-A-2-44355, and U.S. Patent 4,378,424.
  • useful fixing agents are ammonium thiosulfate, sodium thiosulfate, potassium thiosulfate, guanidine thiosulfate, ammonium thiocyanate, sodium thiocyanate, potassium thiocyanate, dihydroxyethyl thioether, 3,6-dithia-1,8-octanediol, and imidazole.
  • Preferred of them are thiosulfates and meso-ionic compounds.
  • ammonium thiosulfate is excellent in rapidness in fixing
  • sodium thiosulfate and meso-ionic compounds are preferred considering that an ammonium ion should be excluded from processing solutions for the sake of environmental protection.
  • Rapid fixing would be achieved by using two or more fixing agents in combination, for example, a combination of ammonium thiosulfate or sodium thiosulfate with ammonium thiocyanate, imidazole, thiourea or a thioether compound.
  • the latter fixing agent is preferably used in an amount of 0.01 to 100 mol% based on the former fixing agent (ammonium thiosulfate or sodium thiosulfate).
  • the fixing agents are used in a total concentration of 0.1 to 3.0 mol/liter of the blix bath or fixer, preferably 0.5 to 2.0 mol/t.
  • the pH of the fixer though dependent on the kind of the fixing agent, is generally from 3.0 to 9.0. In using a thiosulfate, a pH between 5.8 and 8.0 is preferred for stable fixing performance.
  • the blix bath or fixer may contain preservatives to improve stability with time.
  • Effective preservatives for a blix bath or fixer containing a thiosulfate are a sulfite and/or hydroxylamine, hydrazine or an aldehyde-bisulfite adduct (e.g., an acetaldehyde-bisulfite adduct, especially the aromatic aldehyde-bisulfite adduct described in JP-A-1-298935).
  • the sulfinic acid compounds described in JP-A-62-143048 are also suitable.
  • the blix bath or fixer may also contain buffering agents for maintaining the pH constant.
  • buffering agents include phosphates, imidazole compounds (e.g., imidazole, 1-methylimidazole, 2-methylimidazole, and 1-ethylimidazole), triethanolamine, N-allylmorpholine, and N-benzoylpiperazine.
  • the fixer can contain various chelating agents for scavenging iron ions carried over from a preceding bleaching bath to thereby improve the liquid stability.
  • Suitable chelating agents include 1-hydroxyethy!idene-1,1-diphosphonic acid, nitrilotrimethylenephosphonic acid, 2-hydroxy-1,3-diaminopropanetetraacetic acid, ethylenediaminetetraacetic acid, diethylenetriaminepentaacetic acid, ethylenediamine-N-(#-hydroxyethyl)-N,N',N'-triacetic acid, 1,2-diaminopropanetetraacetic acid, 1,3-diaminopropanetetraacetic acid, nitrilotriacetic acid, cyclohexanediaminetetraacetic acid, iminodiacetic acid, dihydroxyethylglycine, ethyl ether diaminetetraacetic acid, glycol ether diaminetetraacetic acid
  • These chelating agents are preferably added in a total amount of 0.01 to 0.5 mol/î, preferably 0.03 to 0.2 mol/t.
  • Fixing is carried out at a temperature ranging from 30 to 60 ° C, preferably from 35 to 50 ° C.
  • the fixing time is from 15 seconds to 2 minutes, preferably 25 to 100 seconds for light-sensitive materials for photographing; and from 8 to 80 seconds, preferably from 10 to 45 seconds for light-sensitive materials for printing.
  • Desilvering is generally effected through any of the following combinations of bleach, blix, and fixing:
  • Combinations (1) to (4), particularly (1) to (3), are suitable to light-sensitive materials for photographing; and procedure (5) is suitable to light-sensitive materials for printing.
  • the second embodiment of the present invention is also applicable to a processing system in which desilvering is preceded by compensation, stopping, washing, and the like.
  • the photographic processing is preferably performed by means of an automatic developing machine.
  • a method for carrying a light-sensitive material in an automatic developing machine is described in JP-A-60-191257, JP-A-60-191258, and JP-A-60-191259.
  • For rapid processing it is preferable to reduce the cross-over time between two processing tanks.
  • An automatic developing machine having a cross-over time of 5 seconds or shorter is described in JP-A-1-319038.
  • a processing solution is preferably replenished with a replenisher in proportion to the amount of the processed light-sensitive material thereby to compensate for the loss of the components of the processing solution and to suppress accumulation of an undesired component dissolved out of the light-sensitive material in the processing solution.
  • One processing step may be conducted in two or more tanks. This being the case, a replenisher is preferably fed from the final bath to the prebath in a counter current system.
  • a washing step or a stabilizing step is preferably carried out in a cascade flow system comprising 2 to 4 stages.
  • the amount of each replenisher to be fed to the respective running processing solution should be reduced unless the change in composition of the respective running processing solution adversely affects photographic properties or causes contamination of the following processing solution.
  • each processing solution is preferably used under forced agitation.
  • Forced agitation can be effected by the methods described in JP-A-62-183460, JP-A-62-183461, and JP-A-3-33847 (page 8); for example, a method in which a jet stream of a processing solution is made to strike against the emulsion layer side of a light-sensitive material (the method adopted in a color negative film processor FP-560B, manufactured by Fuji Photo Film Co., Ltd.); a method of using a rotary means to increase the agitation effect (the method of JP-A-62-183461); a method in which a turbulent flow is caused on the emulsion layer side of a moving light-sensitive material by means of a wiper blade set in a processing tank in such a manner that the blade contact with the emulsion layer; and a method comprising increasing the circulating flow of the whole processing solution.
  • the method of using a jet stream of a processing solution is the best of all, and it is recommended to adopt this system in every processing tank.
  • the rate of replenishment for a color developer is 50 to 3000 ml, preferably 50 to 2200 ml, per m 2 of a color light-sensitive material for photographing; or 15 to 500 ml, preferably 20 to 350 ml, per m 2 of a color light-sensitive material for printing.
  • the rate of replenishment for a bleaching bath is 10 to 1000 ml, preferably 50 to 550 ml, per m 2 of a color light-sensitive material for photographing; or 15 to 500 ml, preferably 20 to 300 ml, per m 2 of a light-sensitive material for printing.
  • the rate of replenishment for a blix bath is 200 to 3000 ml, preferably 250 to 1300 ml, per m 2 of a color light-sensitive material for photographing; or 20 to 300 ml, preferably 50 to 200 ml, per m 2 of a light-sensitive material for printing.
  • a blix bath may be replenished with one liquid type replenisher, or the replenisher may be divided into a bleaching composition and a fixing composition.
  • the overflow from a bleaching bath and/or a fixing bath may be used as a component of a blix replenisher.
  • the rate of replenishment for a fixer is 300 to 3000 ml, preferably 300 to 1200 ml, per m 2 of a color light-sensitive material for photographing; or 20 to 300 ml, preferably 50 to 200 ml, per m 2 of a light-sensitive material for printing.
  • the amount of a replenisher for a washing solution or a stabilizer is 1 to 50 times, preferably 2 to 30 times, still preferably 2 to 15 times, the amount of the liquid carried over from the precedent bath per unit area of a light-sensitive material.
  • An overflow of a processing solution having bleaching ability may be reused after correction of the composition, called regeneration.
  • the processing solution having bleaching ability according to the second embodiment of the present invention is suited to effect such regeneration.
  • For the details of regeneration refer to Fuji Film Processing Manual, Fuji color Negative Film, CN-16 Processing, pp. 39-40 (rev. Aug., 1990), published by Fuji Photo Film Co., Ltd.
  • the kit for preparing a processing solution having bleaching ability containing metal chelate compound (I) may be either a liquid type or a powder type. Where no ammonium salt is used, a powdered kit is easier to prepare because almost all the materials are supplied in a powdered form and are hardly hygroscopic.
  • the kit for regeneration is preferably a powder type; for such can be added as it is without using water in favor of reduction of waste liquid.
  • a processing solution having bleaching ability can be regenerated by aeration as previously described and also by the methods described in Nippon Shashin Gakkai (ed.), Shashinkogaku no Kiso, "Gin-en Shashinhen", Coronasha (1979), such as electrolytic regeneration, and regeneration with bromic acid, chlorous acid, bromine, a bromine precursor, a persulfate, hydrogen peroxide, hydrogen peroxide generated by utilizing a catalyst, bromous acid, ozone, etc.
  • Electrolytic regeneration of a bleaching bath can be conducted by putting a cathode and an anode in a bleaching bath with or without a diaphragm.
  • a bleaching bath, a developer and/or a fixer may be regenerated simultaneously by electrolytic regeneration using a diaphragm.
  • Regeneration of a fixer or a blix bath can be conducted by electrolytically reducing the accumulated silver ion. It is effective for maintenance of fixing ability to remove the accumulated halogen ion by using an anion-exchange resin.
  • the spend washing water is regenerated by ion exchange treatment or, for preference, ultrafiltration.
  • An imagewise exposed color light-sensitive material is subjected to color development prior to desilvering.
  • a color developer to be used in the present invention is described in JP-A-3-33847, p. 9, upper left col., I. 6 to p. 11, lower right col., I. 6 and JP-A-5-197107.
  • a color developing agent to be in the color development step includes known aromatic primary amine color developing agents, preferably p-phenylenediamine derivatives.
  • Typical examples of the p-phenylenediamine developing agents are 4-amino-N-ethyl-N-(#-hydroxyethyl)-3-methylaniline, 4-amino-N-ethyl-N-(3-hydroxypropyl)-3-methylaniline, 4-amino-N-ethyl-N-(4-hydroxybutyl)-3-methylaniline, 4-amino-N-ethyl-N-( ⁇ -methanesulfonamidoethyl)-3-methylaniline, 4-amino-N-(3-carbamoylpropyl-N-n-propyl)-3-methylaniline, 4-amino-N-ethyl-N-(#-hydroxyethyl)-3-methoxyaniline, and the compounds described in EP-A-410450 and
  • the p-phenylenediamine derivative may be a salt, such as a sulfate, a hydrochloride, a sulfite, a naphthalenedisulfonate, and a p-toluenesulfonate.
  • the aromatic primary amine developing agent is used in a concentration of 0.0002 to 0.2 mol, preferably 0.001 to 0.1 mol, per liter of a color developer.
  • the color development is carried out at 20 to 55 ° C, preferably 30 to 55 ° C.
  • the developing time is from 20 seconds to 5 minutes, preferably 30 seconds to 3 minutes and 20 seconds, still preferably 1 to 2.5 minute, for a light-sensitive material for photographing, or for 10 seconds to 1 minute and 20 seconds, preferably 10 to 60 seconds, still preferably 10 to 40 seconds, for a light-sensitive material for printing.
  • a B/W developer to be used for color reversal development is a so-called first B/W developer which is generally employed for reversal development of a color light-sensitive material.
  • the first B/W developer for color reversal development may contain various additives known for a B/W developer for a B/W silver halide light-sensitive material.
  • Typical additives for the first developer include developing agents, such as 1-phenyl-3-pyrazolidone, methol, and hydroquinone; preservatives, such as sulfites; alkaline accelerators, such as sodium hydroxide, sodium carbonate, and potassium carbonate; organic or inorganic restrainers, such as potassium bromide, 2-methylbenzimidazole, and methylbenzothiazole; water softeners, such as polyphosphates; and development inhibitors, such as a trace amount of an iodide or a mercapto compound.
  • developing agents such as 1-phenyl-3-pyrazolidone, methol, and hydroquinone
  • preservatives such as sulfites
  • alkaline accelerators such as sodium hydroxide, sodium carbonate, and potassium carbonate
  • organic or inorganic restrainers such as potassium bromide, 2-methylbenzimidazole, and methylbenzothiazole
  • water softeners such as polyphosphates
  • development inhibitors such as
  • the desilvered light-sensitive material is then subjected to washing with water and/or stabilizing.
  • a stabilizer to be used is described in U.S. Patent 4,786,583.
  • formaldehyde is generally used as a dye stabilizer, it is preferable for working safety to use N-methylol-azole-hexamethylenetetramine, a formaldehyde-bisulfurous acid adduct, dimethylolurea, an azolylmethylamine derivative, etc.
  • the details of these dye stabilizers are described in JP-A-2-153348, JP-A-4-270344, and EP-A-504609.
  • a combination of an azole compound, such as 1,2,4-triazole, and azolylmethylamine or its derivative, such as 1,4-bis(1,2,4-triazol-1-ylmethyl)piperazine, is preferred for its high dye image stabilizing activity and safety (low formaldehyde vapor pressure).
  • Light-sensitive materials to which the processing method according to the second embodiment of the present invention is applicable include color negative films, color reversal films, color paper, color reversal paper, direct positive color light-sensitive materials, color negative films for movies, and color positive films for movies. Examples of these light-sensitive materials are described in JP-A-3-33847, JP-A-3-293662, and JP-A-4-130432.
  • the light-sensitive materials are not particularly limited in kind of a support; method of coating; kind of silver halides to be used in silver halide emulsion layers or a surface protective layer (e.g., silver iodobromide, silver iodochlorobromide, silver bromide, silver chlorobromide and silver chloride), grain shape thereof (e.g., cube, plate, sphere), grain size thereof, coefficient of variation of grain size, crystal structure thereof (e.g., core/shell structure, multi-phase structure, or homogeneous phase structure), or method of preparation thereof (e.g., single jet process or double jet process); kind of binders (e.g., gelatin), hardening agents, antifoggants, metal dopants, silver halide solvents, thickeners, emulsion precipitants, dimensional stabilizers, antiblocking agents, stabilizers, stain inhibitors, dye image stabilizers, stain preventing agents, chemical sensitizers, spectral sensitizer
  • a total dry thickness except the thickness of a support and a subbing layer and a backing layer for the support is not more than 20.0 am, still preferably not more than 18.0 am, in the case of a color light-sensitive material for photographing and not more than 16.0 am, still preferably not more than 13.0 ⁇ m, in the case of a color light-sensitive material for printing. If the film thickness is greater than that, bleach fog or postprocessing stain due to a residual developing agent after color development tends to increase. Attributed to a green-sensitive light-sensitive layer, such bleach fog and postprocessing stain would result in an outstanding increase of magenta density over an increase in cyan or yellow density.
  • the thickness of a light-sensitive material is desirably as small as possible as far as the photographic performance properties are not impaired perceptibly.
  • the possible minimum dry thickness, except a support and a subbing layer, of a color light-sensitive material for photographing or printing is 12.0 ⁇ m or 7.0 ⁇ m, respectively.
  • a color light-sensitive material for photographing usually has a layer or layers between the subbing layer of the support and the light-sensitive layer nearest to the support.
  • the possible minimum dry thickness of such a layer or layers is 1.0 ⁇ m. Reduction in film thickness may be achieved with respect to either light-sensitive layers or light-insensitive layers.
  • the color light-sensitive materials applicable to the present invention preferably has a degree of swelling of from 50 to 200%, still preferably 70 to 150%.
  • degree of swelling means a rate of film thickness increase when swollen with water at 25 ° C, which is obtained by [(a total film thickness swollen with water at 25 ° C to equilibrium) - (a total dry film thickness at 25 ° C and 55% RH)/(a total dry film thickness at 25°C and 55% RH) x 100].
  • a light-sensitive material has a degree of swelling exceeding 200%, a color developing agent tends to remain in the material in a considerable amount, giving adverse influences on image quality (e.g., photographic properties and desilvering properties) and physical properties, such as film strength.
  • image quality e.g., photographic properties and desilvering properties
  • physical properties such as film strength.
  • the color light-sensitive materials applicable to the present invention preferably has a rate of swelling T 1/2 of not more than 15 seconds, still preferably not more than 9 seconds.
  • rate of swelling T 1/2 means a time required for a light-sensitive material to be swollen to have a half of the total film thickness corresponding to 90% of the maximum swollen thickness when the light-sensitive material is immersed in a color developer at 30 ° C for 3 minutes and 15 seconds.
  • the silver halide which can be used in photographic emulsion layers of the color light-sensitive material may have any halogen composition and includes silver chloride, silver bromide, silver chlorobromide, silver iodobromide, silver iodochloride, and silver iodochlorobromide.
  • color light-sensitive materials for photographing or color reversal light-sensitive materials e.g., color negative films, reversal films or color reversal paper
  • silver iodobromide, silver iodochloride or silver iodochlorobromide having a silver iodide content of 0.1 to 30 mol%, particularly silver iodobromide having a silver iodide content of 1 to 25 mol% is preferred.
  • silver bromide or silver chlorobromide are preferred, and silver chloride is also preferred for rapid processing.
  • silver chloride or silver chlorobromide particularly silver chlorobromide having a silver chloride content of not less than 80 mol%, still preferably not less than 95 mol%, and most preferably not less than 98 mol%, is preferred.
  • the color light-sensitive materials may contain a variety of color couplers. Examples of useful color couplers are described in the patents listed in Research Disclosure No. 17643, VII-C to G, ibid, No. 307105, VII-C to G, JP-A-62-215272, JP-A-3-33847, JP-A-2-33144, EP-A-447969, and EP-A-482552.
  • yellow couplers are described in U.S. Patents 3,933,501, 4,022,620, 4,326,024, 4,401,752, and 4,248,961, JP-B-58-10739, British Patents 1,425,020 and 1,476,760, U.S. Patents 3,973,968, 4,314,023, 4,511,649, and 5,118,599, EP-A-249473, European Patent 447,969, JP-A-63-23145, JP-A-63-123047, JP-A-1-250944, JP-A-1-213648.
  • Particularly preferred yellow couplers include those disclosed in JP-A-2-139544, p. 18, upper left col., to p.
  • Magenta couplers preferably include 5-pyrazolone compounds and pyrazoloazole compounds. Examples of suitable magenta couplers are described in U.S. Patents 4,310,619 and 4,351,897, European Patent 73,636, U.S. Patents 3,061,432 and 3,725,067, Research Disclosure No. 24220 (Jun., 1984), JP-A-60-33552, Research Disclosure No. 24230 (Jun., 1984), JP-A-60-43659, JP-A-61-72238, JP-A-60-35730, JP-A-55-118034, JP-A-60-185951, U.S.
  • magenta couplers are pyrazoloazole type magenta couplers represented by formula (I) described in JP-A-2-139544, p. 3, lower right col. to p. 10, lower right col. and 5-pyrazolone magenta couplers represented by formula (M-1) described in JP-A-2-135944, p. 17, lower left col. to p. 21, upper left col. The most preferred of them are the above-mentioned pyrazoloazole type magenta couplers.
  • Useful cyan couplers include phenol couplers and naphthol couplers. Examples of suitable cyan couplers are described in U.S. Patents 4,052,212, 4,146,396, 4,228,233, 4,296,200, 2,369,929, 2,801,171, 2,772,162, 2,895,826, 3,772,002, 3,758,308, 4,334,011, and 4,327,173, West German Patent Publication (OLS) No. 3,329,729, EP-A-121365, EP-A-249453, U.S. Patents 3,446,622, 4,333,999, 4,775,616, 4,451,559, 4,427,767, 4,690,889, 4,254,212, and 4,296,199, and JP-A-61-42658.
  • OLS West German Patent Publication
  • pyrazoloazole type couplers described in JP-A-64-553, JP-A-64-554, JP-A-64-555, and JP-64-556 pyrrolotriazole type couplers described in EP-A-488248 and EP-A-491197, pyrroloimidazole type couplers described in EP-A-456226, pyrazolopyrimidine type couplers described in JP-A-64-46753, imidazole couplers described in U.S.
  • Patent 4,818,672 and JP-A-2-33144 cyclic active methylene type cyan couplers described in JP-A-64-32260, and the couplers described in JP-A-1-183658, JP-A-2-262655, JP-A-2-85851, and JP-A-3-48243 are also useful.
  • Couplers which can form dye having moderate diffusibility are described in U.S. Patent 4,366,237, British Patent 2,125,570, European Patent 96,570, and West German Patent Publication (OLS) No. 3,234,533.
  • Couplers capable of releasing a photographically useful residue on coupling reaction are also useful in the present invention.
  • DIR couplers releasing a developing inhibitor are described in the patents listed in Research Disclosure No. 17643, VII-F, JP-A-57-151944, JP-A-57-154234, JP-A-60-184248, JP-A-63-37346, and U.S. Patents 4,248,962 and 4,782,012.
  • Couplers imagewise releasing a nucleating agent or a development accelerator at the time of development are described in British Patents 2,097,140 and 2,131,188, JP-A-59-157638, and JP-A-59-170840.
  • the processing composition containing metal chelate compound (I) according to the second embodiment is also useful as a reducer for correcting a silver dot or line image which is obtained by developing a silver halide light-sensitive material for photomechanical processing.
  • Examples 1 to 6 relate to the first embodiment, and Examples 7 to 11 relate to the second one.
  • a color developer was prepared according to the following formulation.
  • a 5 1 portion each of samples 101 to 113 was put in a 10 cm wide, 25 cm long and 30 cm deep container made of rigid polyvinyl chloride, and a floating lid was put thereon to cover 200 cm 2 of the liquid surface, with the remaining 50 cm 2 being exposed to open air.
  • the liquid in the container was kept at 38 ° C for 30 days while being continuously circulated at a rate of 3 l/min by means of a pump (aging test). Retention (%) of the developing agent and hydroxylamine (preservative) after the aging was analyzed. Further, the aged developer was observed with the naked eye to examine if any sediment was formed.
  • a multi-layer color light-sensitive material prepared in the same manner as for sample 101 of Example 1 of JP-A-4-274236 was cut to a width of 35 mm and wedgewise exposed to light of 5 CMS at a color temperature of 4800 ° K and processed according to the following schedule. Color development was conducted using each of the developer immediately after preparation (hereinafter referred to as a fresh developer) and the aged one.
  • the same light-sensitive material was processed at a rate of 180 m per day for consecutive 5 days, and the developing machine was stopped for 2 days. An aliquot of the water of the final washing tank (washing tank (2)) was taken out, and the number of living bacteria per milliliter was measured.
  • the same light-sensitive material was uniformly exposed to light of 500 CMS at a color temperature of 2854 °K, processed in the same manner as described above, and cut to a size of 35 mm x 40 mm.
  • a suspension of Aspergillus niger in a 10-fold diluted M-40Y medium 400 g of sucrose, 20 g of malt extract, 5 g of yeast extract, and 1 1 of water) was prepared, and 0.03 ml of the cell suspension was dropped on the center of the emulsion layer side of the cut film.
  • the spot of the cell suspension had a diameter of about 2 mm.
  • the spotted film was placed in a sterilized plastic dish containing absorbent wadding impregnated with sterilized water and allowed to stand at 27°C for 3 weeks with a cover on the dish. After 3 weeks, the average diameter of the colony of the mold radially extending from the center of the
  • Example 1 To the fixer used in Example 1 was added 3 g/i of Compound 1, 4, 6, 11 or 15, and an Fe (III) ion was added thereto in an amount corresponding to what would have been carried over from the preceding bleaching solution to prepare samples 201 to 205, respectively. Each sample was aged at an opening ratio of 0.1 cm- 1 at 38°C for 30 days, and development of turbidity was observed. As a result, all the samples containing compound (I) of the present invention maintained clearness with no sediment, whereas the untreated fixer suffered from considerable turbidity after aging.
  • Example 2 To a stabilizer obtained by eliminating the chelating agent from the stabilizer used in Example 1 (designated comparative sample 301) was added, as a chelating agent, 100 mg/i of Compound 1, 4, 6, 11, 15, 48 or 49 to prepare samples 302 to 309, respectively.
  • the multi-layer color light-sensitive material as used in Example 1 was processed in the same manner as in Example 1, except for using a fresh developer 101 and each of samples 302 to 309 as a stabilizer.
  • the processed light-sensitive material was aged at 45 °C and 70% RH for 1 week, and an increase in magenta stain ( ⁇ D min ) due to the aging was measured. The results obtained are shown in Table 2.
  • the stabilizer containing compound (I) of the present invention improves image preservability, suppressing an increase in stain after processing.
  • a paper support having laminated on each side a polyethylene layer was subjected to a corona discharge treatment and coated with a gelatin subbing layer containing sodium dodecylbenzenesulfonate.
  • the following photographic layers were further provided thereon to prepare a multi-layer color paper (designated color paper 001).
  • Coating compositions were prepared as follows.
  • cubic silver chlorobromide emulsion C was prepared by mixing larger size emulsion c' having an average grain size of 0.58 /1.m and a coefficient of variation of grain size distribution (hereinafter abbreviated as grain size CV) of 0.09 and smaller size emulsion c" having an average grain size of 0.45 ⁇ m and a grain size CV of 0.11 at a mixing ratio of 7:3 (by silver mole).
  • grain size CV coefficient of variation of grain size distribution
  • Coupler dispersion C and silver chlorobromide emulsion C were mixed and dissolved to obtain a coating composition for the 5th layer having the formulation hereinafter described.
  • Spectral sensitizing dyes and their amounts used in the silver chlorobromide emulsions for each light-sensitive emulsion layer are shown below.
  • Each of the blue-sensitive emulsion layer, the green-sensitive emulsion layer, and the red-sensitive emulsion layer additionally contained 1-(5-methylureidophenyl)-5-mercaptotetrazole in an amount of 3.4 x 10- 4 mol, 9.7 x 10- 4 mol, and 5.5 x 10- 4 mol, respectively, per mole of silver halide.
  • the blue-sensitive and green-sensitive emulsion layers each furthermore contained 4-hydroxy-6-methyl-1,3,3a,7-tetraazaindene in an amount of 1 x 10- 4 mol and 2 x 10- 4 mol, respectively, per mole of silver halide.
  • the following dyes were added to the emulsion layers. The amount added is shown in the parentheses.
  • each layer is shown below.
  • the amount of a silver halide emulsion is expressed in terms of gram of silver per unit area (g-Ag/m 2 ). All the coating compositions were adjusted so as to provide a coating layer having a pH of 7.0.
  • Polyethylene-laminated paper the polyethylene layer on which the first layer is to be provided containing 14% by weight of a white pigment (Ti0 2 ) and a bluing dye (ultramarine).
  • Second Layer (color stain preventing layer):
  • UV-absorbing layer Sixth layer (UV-absorbing layer):
  • UV Absorbent UV-1 UV Absorbent UV-1:
  • UV Absorbent UV-2 UV Absorbent UV-2:
  • a color developer having the following formulation was prepared.
  • the resulting color developer was designated sample 401.
  • sample 401 was added the compound shown in Table 3 below to prepare samples 402 to 408. To each of samples 401 to 408 were added 5 ppm of an iron (III) ion and 150 ppm of a calcium ion. Each sample was put in a beaker (opening ratio: 0.10 cm- 1 ) and aged at 38°C for 20 days.
  • Color paper 001 was wedgewise exposed to light through separation filters for sensitometry by using a sensitometer FWH, manufactured by Fuji Photo Film Co., Ltd. The exposure was conducted for an exposure time of 0.1 sec to give an exposure of 250 CMS.
  • the exposed color paper was processed according to the following schedule in a small-sized automatic developing machine using the above-prepared developer immediately after preparation (fresh developer) or the aged one.
  • Processing solutions other than the developer had the following formulations.
  • the minimum yellow density (D min ) and magenta sensitivity (logarithm of an exposure that gives a density of 0.5) were measured for both the color paper processed with a fresh developer and the one processed with an aged developer to obtain an increase in D min ( ⁇ D min ) and a change in magenta sensitivity (AS) due to the aging of the developer. Further, the residual amount of the developing agent in the aged developer was measured by high-performance liquid chromatography. Development of sediment of the aged developer was observed. The results obtained are shown in Table 3.
  • color paper 001 was continuously processed in the same manner using developer 406 or 408 while replenishing each of the processing solutions with a respective replenisher prepared so as to maintain the composition of the running solution.
  • the rates of replenishment were 73 ml/m 2 for a color developer, 60 ml/m 2 for a blix bath, and 360 ml/m 2 for a rinsing solution in a 3 tanks counter-current system.
  • the processing was continued until the total amount of the developer replenisher supplied reached twice the volume of the development tank. In this case, too, the developer showed stable performance without forming sediment.
  • Developer (B) having the same composition as developer (A), except that disodium ethylenediaminetetraacetate was replaced with the equimolar amount of Compound 1 of the present invention, was prepared.
  • developers (A) and (B) were aged at 40 ° C for 4 days, Sample No. B-6 of Example of JP-A-3-174148 was continuously processed with the aged developer (A) or (B).
  • Developer (B) showed an apparent improvement over developer (A) in prevention of sedimentation. Further, as a result of analysis of the aged developers (A) and (B), it was confirmed that the addition of Compound 1 to the developer minimized the loss of hydroquinone and potassium sulfite due to air oxidation and also suppressed an increase of the pH value due to the loss of these components.
  • a cellulose triacetate film having a subbing layer was coated with the following layers to prepare a multi-layer color light-sensitive material.
  • the amount of silver halide is expressed in terms of gram of silver per unit area (g-Ag/m 2 ), and the amount of sensitizers is expressed in terms of mole per mole of silver halide (mol/mol-AgX).
  • Anti-halation layer First layer (Anti-halation layer):
  • Second layer (Intermediate layer):
  • Twelfth layer (Middle sensitivity blue-sensitive emulsion layer):
  • each layer contained appropriately W-1, W-2, W-3, B-4, B-5, B-6, F-1 to 17, an iron salt, a lead salt, a gold salt, a platinum salt, an iridium salt, and a rhodium salt.
  • Silver iodobromide emulsions A to G used in the light-sensitive material are shown in Table 4.
  • Emulsions A to F had been sensitized during grain formation by reduction sensitization using thiourea dioxide and thiosulfonic acid in accordance with Example of JP-A-2-191938.
  • Emulsions A to F had been sensitized by gold sensitization, sulfur sensitization and selenium sensitization in the presence of the respective spectral sensitizing dyes and sodium thiocyanate in accordance with Example of JP-A-3-237450.
  • Tabular silver halide grains were prepared by using low-molecular weight gelatin according to Example of JP-A-1-158426. Tabular grains and normal crystal grains having a grain structure were observed to have a dislocation line as described in JP-A-3-237450 under a high-voltage electron microscope.
  • the light-sensitive material was exposed to light and continuously processed by means of an automatic developing machine according to the following schedule until the accumulated amount of the developer replenisher supplied reached three times the tank volume.
  • compositions of the processing solutions used are described below.
  • the amount of silver remaining on the maximum density area of the thus processed light-sensitive material was measured by X-ray fluorometry. The results obtained are shown in Table 5.
  • the minimum density (D min ) was measured with green (G) light.
  • the light-sensitive material was processes in the same manner as described above, except for using a bleach fog-free standard bleaching solution having the following formulation and changing the bleaching time to 390 seconds.
  • the D min of the thus processed light-sensitive material was 0.60 as measured in the same manner as described above. This value was taken as a standard D min , and bleach fog ( ⁇ D min ) was obtained as a difference between D min of the light-sensitive material processed with each of bleaching solutions 701 to 716 and the standard D min . The results obtained are also shown in Table 5.
  • the processed light-sensitive material was preserved at 60°C and 70% RH for 4 weeks in a dark room, and the increase in stain (AD) (i.e., D min in the white background) due to the preservation was obtained.
  • AD stain
  • the light-sensitive material was processed in the same manner as described above, except that 1 ml of the running solution of each bleaching bath per liter of the color developer was added to the formulation of the color developer.
  • the increase in D min ( ⁇ D min ) due to incorporation of the bleaching bath into the color developer was obtained.
  • the results obtained are shown in Table 5.
  • the metal chelate of compound (I) reduces the residual silver amount more than the metal chelate of the comparative compound and, at the same time, exhibits excellent effects on prevention of bleach fog or stain increase after processing. It is also seen that the bleaching solution containing the metal chelate of the present invention suppresses an increase in D min even when incorporated into the preceding color developer.
  • a light-sensitive material (the same as sample 103 prepared in JP-A-4-145433) was processed as follows.
  • Processing solutions had the following formulations.
  • Ion exchanged water (Ca and Mg ions each reduced to 3 ppm or less).
  • the light-sensitive material was uniformly exposed to light at such an exposure as to give a gray density of 1.5 and then processed in the same manner as described above, and the silver amount remaining in the maximum density area was measured by X-ray fluorometry. The results obtained are shown in Table 6.
  • Example 7 using bleaching solution 710 was repeated with the following exceptions.
  • the amount each of Compound 22 and ferric nitrate nonahydrate in bleaching solution 710 was reduced by half.
  • the bleaching solution for running solution and the replenisher therefor were adjusted to pH 4.2 and 4.0, respectively.
  • To the running bleaching solution and the replenisher therefor were added 0.2 mol/I and 0.3 mol/î, respectively, of succinic acid; 0.45 mol/l and 0.67 mol/l, respectively, of glutaric acid; and 0.05 mol/l and 0.075 mol/l, respectively, of malonic acid.
  • the so modified bleaching bath still exhibited excellent performance, such as desilvering effects, even if the concentration of the bleaching agent was reduced by half.
  • a processing solution containing compound (I) according to the first embodiment of the present invention prevents the active component from being oxidized or decomposed due to a metallic ion and therefore maintains its performance for an extended period of time.
  • the processing solution suffers from neither sedimentation due to accumulation of a metallic ion nor growth of mold or bacteria and therefore causes no such troubles as contamination of films or clogging of filters of an automatic developing machine.
  • compounds (I) contribute to environmental protection owing to their biodegradability.
  • the metal chelate compounds (I) according to the second embodiment of the present invention are also biodegradable.
  • a processing solution having bleaching ability containing metal chelate compound (I) causes no bleach fog, reduces staining after processing, is capable of rapid processing for desilvering, and, even when incorporated into a color developer, brings about little variation in processing performance of the color developer.

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