EP0073636A1 - Photographic elements containing ballasted couplers - Google Patents
Photographic elements containing ballasted couplers Download PDFInfo
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- EP0073636A1 EP0073636A1 EP19820304461 EP82304461A EP0073636A1 EP 0073636 A1 EP0073636 A1 EP 0073636A1 EP 19820304461 EP19820304461 EP 19820304461 EP 82304461 A EP82304461 A EP 82304461A EP 0073636 A1 EP0073636 A1 EP 0073636A1
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- Prior art keywords
- coupler
- group
- coupling
- couplers
- photographic
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03C—PHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR, STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY
- G03C7/00—Multicolour photographic processes or agents therefor; Regeneration of such processing agents; Photosensitive materials for multicolour processes
- G03C7/30—Colour processes using colour-coupling substances; Materials therefor; Preparing or processing such materials
- G03C7/32—Colour coupling substances
- G03C7/3212—Couplers characterised by a group not in coupling site, e.g. ballast group, as far as the coupling rest is not specific
Definitions
- This invention relates to photographic elements containing ballasted couplers.
- Images are commonly obtained in the photographic art by a coupling reaction between the development product of a silver halide developing agent (i.e., oxidized aromatic primary amino developing agent) and a color forming compound commonly referred to as a coupler.
- the dyes produced by coupling are indoaniline, azomethine, indamine or indophenol dyes, depending upon the chemical composition of the coupler and the developing agent.
- the subtractive process of color formation is ordinarily employed in multicolor photographic elements and the resulting image dyes are usually cyan, magenta and yellow dyes which are formed in or adjacent silver halide layers sensitive to radiation complementary to the radiation absorbed by the image dye; i.e, silver halide emulsions sensitive to red, green and blue radiation.
- couplers which form cyan dyes upon reaction with oxidized color developing agents are phenols and naphthols.
- Representative couplers are described in the following patents and publications- U.S. Patents 2,772,162; 2,895,826; 3,002,836; 3,034,892; 2,474,293; 2,423,730; 2,367,531; 3,041,236 and "Farbkuppler-ein Literaturubersicht,” published in Agfa Mitannonen, Band II, pp. 156-175 (1961).
- Preferred couplers which form magenta dyes upon reaction with oxidized color developing agent are pyrazolones, pyrazolotriazoles, pyrazoiobanzi midazoles and indazolones.
- Representative couplers are described in such patents and publications as U.S. Patents 2,600,788; 2,369,489; 2,343,703; 2,311,082; 2,673,301; 3,152,896; 3,519,429; 3,061,432; 3,062,653; 3,725,067; 2,908,573 and "Farbkupple-eine Literaturubersicht,” published in Agfa Mittailept, Band II, pp. 126-156 (1961).
- Couplers which form black or neutral dyes upon reaction with oxidized color developing agent.
- Representative couplers are resorcinols and m-aminophenols such as are described in U.S. Patents 1,939,231; 2,181,944; 2,533,106; 4,126,461; German OLS 2,644,194 and German OLS 2,650,764.
- Couplers Also known are compounds which react with oxidized color developing agent in the same way as couplers but which do not yield a dye. Such compounds are employed to modify the photographic image by competing with dye-forming coupler for oxidized color developing agent or by releasing a photographic reagent, such as a development inhibitor, as a result of the coupling reaction. While many such compounds are not commonly referred to as couplers, it is convenient to consider them as such in view of the similarities in the ways they and couplers react during photographic processing. For the purposes of the present invention, they are considered couplers. Representative couplers are described in such patents and published patent applications as U.S.
- Couplers When intended for incorporation in photographic elements, couplers are commonly dispersed therein with the aid of a high boiling organic solvent, referred to as a coupler solvent. Couplers art rendered nondiffusible in photographic elements, and compatible with coupler solvents, by including in the coupler molecule a group referred to as a ballast group. This group is located on the coupler in a position other than the coupling position and impart to the coupler sufficient bulk to render the coupler nondiffusible in the element as coated and during processing. lt will be appreciated that the size and nature of the ballast group will depend upon the bulk of the unballasted coupler and the presence of other substituents on the coupler.
- a photographic element comprising a support, a photographic silver halide emulsion and a nondiffusible photographic coupler which reacts with oxidized color developing agent to give a compound which may or may not be an image dye, characterized in that the coupler contains attached to a position other than the coupling position a ballast terminated with a hydroxyphenylsulfonyl group or a hydroxyphenylsulfinyl group.
- the coupling group of the couplers used in the photographic elements of the invention can be any coupling group known or used in the art to form a colored or colorless reaction product with oxidized color developing agent.
- the ballast group of the couplers used in the invention can be any ballast, or portion thereof, which is terminated with a hydroxyphenylsulfonyl or hydroxyphenvlsulfinyl group.
- Preferred couplers used in the invention have the structural formula: where:
- the coupling group represented by COUP can be any coupling group commonly used in photographic elements.
- the remainder of the molecule shown in formula I can be joined to the coupling group at any position, other than the coupling position, where ballast groups commonly are joined.
- the coupling position of the coupling group can be unsubstituted, or substituted with a coupling off group which can modify the equivalency of the coupler, its reactivity, its dispersibility or which, upon release from the coupler, interacts with other components of the element.
- the coupling group can include substituents in other positions.
- the bivalent linking group represented by L can be any of the groups found in ballast groups, such as alkylene of 1 to 10 carbon atoms, arylene of 6 to 10 carbon atoms, heterocyclene of 5 to 10 carbon atoms, oxygen, sulfur, amino, amido. sulfonamido, carbamoyl, sulfamoyl, and combinations of such linking groups, e.g., alkarylene, aralkylene, aminoarylene, aminoalkylene, amidoarylene, amido- alkylene, ureido, alkarylamido, amidoarylsulfamoyl, aminoarylamido and aminoarylsulfamoylalkyl.
- ballast groups such as alkylene of 1 to 10 carbon atoms, arylene of 6 to 10 carbon atoms, heterocyclene of 5 to 10 carbon atoms, oxygen, sulfur, amino, amido. sulfonamido, carbamoyl, sulf
- the hydroxy group in structural formulae II and III is in the para position.
- alkyl, alkylene, aryl, arylene and heterocyclene groups can be unsubstituted or substituted with one or more groups such as halogen, nitro, amino, carboxy, alkyl, alkoxy, aryl, aryloxy, heterocyclyl, carbamoyl, amido, sulfamoyl and sulfonamido.
- common yellow dye-forming couplers are acylacetanilides such as pivalylacetanilides and benzoylacetanilides.
- Common magenta dye-forming couplers are pyrazolones, pyrazolotriazoles, pyrasolobenzimidazoles and indazolones.
- Common cyan dye-forming couplers are phenols and naphthols, common neutral dye-forming couplers are resorcinols and m-aminophenols.
- Common non-dye-forming couplers are acyclic.and cyclic compounds in which the active position, corresponding to the coupling position, is adjacent to or in conjugation with a carbonyl group or an imino group, such as a- or Y-substituted ketones or imines, e.g. cyclopen- tanones, cyclohexanones, indanones, indanoimines, oxyindoles and oxazolinones.
- These couplers can form the coupling group COUP in the above formulae. Structures of representative coupling groups are shown below. In these structures Z represents hydro.
- gen or a coupling-off group and the unsatisfied bond, or bonds indicates the preferred position, or positions, at which there can be attached the remainder of the molecule shown in the above structures; it being recognized that the coupling group can contain other substituents.
- Typical suitable coupling groups that can be used in the photographic elements of the invention are set out below.
- (B represents a blocking group capable of being removed during processing, e.g., by alkaline cleavage or coupling)
- ballasts of general structures B 1 through B 6 where Y is -OH.
- Cyan dye-forming couplers used in the invention include the following; the group Y in B 2 , B 3 and B 4 being -OH:
- Maginta dye-forming couplers used in the invention include the following, the group Y in B 2 or B 3 being OH:
- Vellow dye-forming couplers used in the invention inolude the following, the group Y in B l , P 2 or B 6 being -OH:
- Noncolor forming couplers used in the invention include the following:
- Couplers used in the invention can be prepared by attaching a blocked hydroxyphenylsulfonyl or blocked hydroxyphenylsulfinyl group directly to the coupling group or by attaching such a group to the remainder of the ballast group after which the ballast group is attached to the coupling grcup. Thereafter the blocking group is remoived. Conventional condensation reactions can be employed in joining the various groups which ultimately form the coupler. For many of the couplers used in the invention it is convenient to provide the hydroxyphenylsulfonyl group using a 4,4'-sulfonyldiphenol mono ether (e.g. benzyl ether) or mono ester (e.g.
- acetyl ester Conventional reaction techniques can be employed to attach such a compound to the remainder of the ballast group and the thus formed ballast group to the coupling group. Thereafter, the blocking group can be removed by hydrogenation (in the case of the ether) or alkaline hydrolysis (in the case of an ester).
- the coupler, or the remainder of the ballast group has an amino group available for reaction, it is convenient to react that amino group with a blocked hydroxybenzene- sulfonyl chloride after which the blocking group is removed.
- couplers used in the invention can be used in the ways and for the purposes that nondiffusible couplers are used in the photographic art.
- the couplers are incorporated in silver nalide emulsions and the emulsions coated on a support to form the photographic elements of the invention.
- the couplers can be incorporated in photographic layers adjacent a silver halide emulsion layer where, during development, the coupler will be in reactive association with develop ment products such as oxidized color developing agent.
- the term "associated therewith" signifies that the coupler is in the sil- wex halide emulsion or in an adjacent location where, during processing, it will come into reactive associ- stion wich silver nalide development products.
- the photographic elements or che invention can be single color elements or multicolor elements.
- Multicolor elements contain dye image-forming uaits sensitive to each of the three primary rsgions of the spectrum.
- Each unit can be comprised of a single emulsion layer or of multiple emulsion layers sensitive to a given region of the spectrum.
- the layers of the photographic element, inclucing the cayers of the image-forming units, can be arranged in various orders as known in the art.
- the emulsions sensitive to each of the three primary regions of the spectrum can be disposed as a single segmented layer, e.g., as by the use of micro- vessels as described in Belgian Patent 881,513.
- a typical multicolor photographic element of the invention comprises a support bearing a cyan dye image-forming unit comprised of at least one red-sensitive silver halide emulsion layer having associated therewith at least one cyan dae-forming ccoup ler, a magenta dye image-forming unit comprising at least one greea-sanaitive silver halide emulsion layer having associated therewith at least one magenta dye-forming coupler and a yellow dye image-forming unit comprising at least one blue-sensitive silver halide emulsion layer having associated therewith at least one yellow dye-forming coupler, at least one of the couplers in the element being a coupler as described above.
- the element can contain additional layers, such as filter layers, interlayers, overcoat layers, subbing layers, and the like.
- the silver halide emulsions employed in the photographic elements of this invention can be either negative-working or positive-working. Suitable emulsions and their preparation are described in Research Disclosure. Sections I and II and the publications cited therein. Suitable vehicles for the emulsion layers and other layers of elements of this invention are described in Research Disclosure Section IX and the publications cited therein.
- couplers used in the invention can be used. These couplers can be incorporated in the elements and emulsions as described in Research Disclosure Section VII paragraph C and the publications cited therein.
- the photographic elements of this invention or individual layers thereof can contain brighteners (see Research Disclosure Section V), antifoggants and stabilizers (see Research Disclosure Section VI), antistain agents and image dye stabilizer (see Research Disclosure Section VII, paragraphs I and J), light absorbing and scattering materials (see Research Disclosure Section VIII), hardeners (see Research Disclosure Section XI); plasticizers and lubricants (see Research Disclosure Section XII), antistatic agents (see Research Disclosure Section XIII), matting agents (see Research Disclosure Section XVI) and- development modifiers (see Research Disclosure Section XXI).
- the photographic elements of che invention can be coat4d on a variety of supports as described in Research Disclosure Section XVII and the references described therein.
- Photographic elements of the invention can be exposed to actinic radiation, typically in the visible region of the spectrum, to form a latent image as described in Research Disclosure Section XVIII and then processed to form a visible dye image as described in Research Disclosure Section XIX.
- Processing to form a visible dye image includes the step oi contacting the element with a color developing agent to reduce developable silver halide and oxidize the color developing agent. Oxidized color developing agent in turn reacts with the coupler to yield a dye.
- Preferred color developing agents are p-phenylene diamines.
- 4-amino-N,N-diethyl-aniline hydrcchloride 4-amino-3-methyl-N,N-diethylaniline hydrochloride, 4-amino-3-methy-N-ethyl-N- ⁇ -(methanesulfonamido) ethylaniline sulfate hydrate, 4-amino-3-methyl-N-ethyl-N- ⁇ -hydroxyethylaniline sulfate, 4-amino-3- ⁇ -(methanesulfonamido)ethyl-N,N-diethyl-aniline hydrochloride and 4-amiao-N-ethyl-N-(2-methoxy ethyl)-m-toluidine di-p-toluene sulfonic acid.
- this processing step leads to a negative image.
- this step can be preceded by developing exposed silver halide with a non-chromogenic developing agent without forming a dye, and then uniformly fogging the element to render unexposed silver halide developable.
- a direct positive emulsion can be employed to obtain a positive image.
- This phenolic acid was acetylated by dissolving in 70 mL acetic anhydride and 7 mL concentrated surfuric acid, stirring 30 minutes at 20°C., then on a steam bath for 30 minutes, cooling, and pouring into 8 L water.
- Refluxing 35 g (0.07 mol) of this acid in excess thionyl chloride for 5 h and concentrating yielded a colorless oil, which on trituration in ligroin gave 22 g white solid (B 2 Cl, Y OAc), mp 66-69°C.
- ballast group containing an amine function may be attached according to Scheme III:
- Photographic elements of this invention and control elements were prepared and tested according to the procedures described below.
- All photographic elements were prepared by coating a cellulose acetate butyrate film support with a photosensitive layer containing a silver bromo-iodide emulsion at 0.91 g Ag/m 2 (when the coupler is 4-equivalent) or 0.46 g Ag/m 2 (when the coupler is 2-equivalent)., gelatin at 3.78 g/m 2 , and one of the couplers identified in Table I dispersed in one-half its weight of the coupler solvent described and coated at 1.62 x 10 -3 moles/m 2 .
- the photosensitive layer was overcoated . with a layer containing gelatin at 1.08 g/m 2 and bis-vinyl-sulfonylmethyl ether at 1.75 weight percent based on total gelatin.
- Samples of each element were imagewise exposed through a graduated-density test object and processed at 40°C employing one of three color developing solutions identified below then stopped, bleached, fixed and washed.
- magenta dye images were produced which were evaluated by plotting dye density vs. log exposure sensitometric curves and recording the maximum dye density (D max ) and gamma (y) i.e., the contrast determined by the slope of the straight line portion of the curve. Additionally, dye hues were evaluated from spectrophotcmetric curves by measuring the maximum absorption peak ( ⁇ max ) normalized to a density of 1.0 and the half band width (HBW). Halfband width is the width, in nanometers, of the spectrophotometric curve at one-half the difference between maximum density and stain.
- top-band width (TBW) and bottom-band width (BBW) of the curve were measured at three-fourths and one-fourth, respectively, of the normalized density.
- Curve shape factor (CSF) equals 100 X TbW/BBW and provides a ratio of the width near the top and bottom of the absorption curve. The greater this ratio, the steeper are the sides of the absorption peak, and the more efficient is the dye's absorption of light in its spectral region.
- couplers of this invention have enhanced activity, which results in increased maximum dye density and gamma.
- many of the dyes formed from couplers of this invention have absorption maxima at desirably longer wavelengths and have broader half band widths and larger curve shape factors, resulting in more efficient spectral absorption.
- Photographic elements containing additional couplers were prepared, processed and evaluated as described above in connection with Examples 1-14. The results are reported in Table II below.
- photographic elements were prepared as described above in connection with Examples 1-14. Four samples from each element were exposed as described above. One pair of the exposed elements was developed in developer D-2, described above, and the other pair was developed in this developer to which had been added 1.5 g/L of the soluble competing cooler citrazinic acid. The remaining processing for one element from each pair was stopping, bleaching, fixing and washing while for the second element from each pair the bleaching step was j omitted so that the developed silver remained in the element. For those elements in which the silver remained, the amount of developed silver, in g/m 2 , was determined by x-ray fluorescence analysis and plotted against exposure.
- dye density vs exposure curves were generated. From the plots for pairs of elements developed with the same developer composition there was plotted, for each exposure step, dye density vs developed silver.
- the slope of the line for the ele- ments developed in the absence of a competing coupler (Y in Table III, below) is a measure of the efficiency with which the coupler forms dye; the greater the slope the more efficient the coupler.
- the slope of the line for the elements developed in the presence of the competing coupler (Y c in Table III, below) is a measure of the reactivity of the coupler, the greater the slope, the more reactive the coupler.
- the couplers employed had the following structure: It is apparent from the values for Y o and Y c in Table III that the couplers used in the invention react more efficiently with oxidized developer to form image dye, in the presence or absence of a competing coupler, than do those couplers with ballasts not used in this invention.
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Abstract
Description
- This invention relates to photographic elements containing ballasted couplers.
- Images are commonly obtained in the photographic art by a coupling reaction between the development product of a silver halide developing agent (i.e., oxidized aromatic primary amino developing agent) and a color forming compound commonly referred to as a coupler. The dyes produced by coupling are indoaniline, azomethine, indamine or indophenol dyes, depending upon the chemical composition of the coupler and the developing agent. The subtractive process of color formation is ordinarily employed in multicolor photographic elements and the resulting image dyes are usually cyan, magenta and yellow dyes which are formed in or adjacent silver halide layers sensitive to radiation complementary to the radiation absorbed by the image dye; i.e, silver halide emulsions sensitive to red, green and blue radiation.
- Since this is a mature art, the patent and technical literature is replete with references to compounds which can be used as couplers for the formation of photographic images. Preferred couplers which form cyan dyes upon reaction with oxidized color developing agents are phenols and naphthols. Representative couplers are described in the following patents and publications- U.S. Patents 2,772,162; 2,895,826; 3,002,836; 3,034,892; 2,474,293; 2,423,730; 2,367,531; 3,041,236 and "Farbkuppler-ein Literaturubersicht," published in Agfa Mitteilungen, Band II, pp. 156-175 (1961).
- Preferred couplers which form magenta dyes upon reaction with oxidized color developing agent are pyrazolones, pyrazolotriazoles, pyrazoiobanzi midazoles and indazolones. Representative couplers are described in such patents and publications as U.S. Patents 2,600,788; 2,369,489; 2,343,703; 2,311,082; 2,673,301; 3,152,896; 3,519,429; 3,061,432; 3,062,653; 3,725,067; 2,908,573 and "Farbkupple-eine Literaturubersicht," published in Agfa Mittailungen, Band II, pp. 126-156 (1961).
- Couplars which form yellow dyes upon reaction with oxidized color developing agent are acylacetanilides such as benzoylacetanilides and pivalylacetarilides. Representative couplers are described in the following patents and publications: U.S. Patents 2,875,057; 2,407,210; 3,265,506; 2,298,443; 3,048,194; 3,447,928 and "Farbkuppler- eine Literaturubersicht." published in Agfa Mitteilungen, Band II, pp. 112-126 (1961).
- Also known are couplers which form black or neutral dyes upon reaction with oxidized color developing agent. Representative couplers are resorcinols and m-aminophenols such as are described in U.S. Patents 1,939,231; 2,181,944; 2,533,106; 4,126,461; German OLS 2,644,194 and German OLS 2,650,764.
- Also known are compounds which react with oxidized color developing agent in the same way as couplers but which do not yield a dye. Such compounds are employed to modify the photographic image by competing with dye-forming coupler for oxidized color developing agent or by releasing a photographic reagent, such as a development inhibitor, as a result of the coupling reaction. While many such compounds are not commonly referred to as couplers, it is convenient to consider them as such in view of the similarities in the ways they and couplers react during photographic processing. For the purposes of the present invention, they are considered couplers. Representative couplers are described in such patents and published patent applications as U.S. Patents 3,632,345; 3,928,041; 3,938,996; 3,958,993; 3,961,959; 4,010,035; 4,029,503; 4,046,574; 4,049,455; 4,052,213; 4,063,950; 4,075,021; 4,121,934; 4,157,916; 4,171,223; 4,186,012 and 4,187,110; U.K. Patent Specifications 1,445,797; 1,504,094; 1,536,341 and 2,032,914A; German OLS's 2,448,063; 2,552,505; 2,610,546 and 2,617,310; and Belgian Patent 839,083.
- When intended for incorporation in photographic elements, couplers are commonly dispersed therein with the aid of a high boiling organic solvent, referred to as a coupler solvent. Couplers art rendered nondiffusible in photographic elements, and compatible with coupler solvents, by including in the coupler molecule a group referred to as a ballast group. This group is located on the coupler in a position other than the coupling position and impart to the coupler sufficient bulk to render the coupler nondiffusible in the element as coated and during processing. lt will be appreciated that the size and nature of the ballast group will depend upon the bulk of the unballasted coupler and the presence of other substituents on the coupler.
- Although numerous couplers are known in-the art, there is a continuing problem to improve, or optimize for particular applications, many properties of the coupler and the resultant dye.
- It is an object of this invention to provide novel photographic elements that contain couplers that have improved stability, reactivity and compatibility with other components in the photographic element, the dyes derived from such couplers having efficient light absorption and good stability and hue.
- Such can be accomplished by a photographic element comprising a support, a photographic silver halide emulsion and a nondiffusible photographic coupler which reacts with oxidized color developing agent to give a compound which may or may not be an image dye, characterized in that the coupler contains attached to a position other than the coupling position a ballast terminated with a hydroxyphenylsulfonyl group or a hydroxyphenylsulfinyl group.
- The coupling group of the couplers used in the photographic elements of the invention can be any coupling group known or used in the art to form a colored or colorless reaction product with oxidized color developing agent. The ballast group of the couplers used in the invention can be any ballast, or portion thereof, which is terminated with a hydroxyphenylsulfonyl or hydroxyphenvlsulfinyl group.
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- COUP represents a coupling group;
- p is 1 or 2;
- q is 1 to 3; and
- L is a direct linkage (i.e., a covalent bond) or a bivalent linking group.
- The coupling group represented by COUP can be any coupling group commonly used in photographic elements. The remainder of the molecule shown in formula I can be joined to the coupling group at any position, other than the coupling position, where ballast groups commonly are joined. The coupling position of the coupling group can be unsubstituted, or substituted with a coupling off group which can modify the equivalency of the coupler, its reactivity, its dispersibility or which, upon release from the coupler, interacts with other components of the element. The coupling group can include substituents in other positions.
- The bivalent linking group represented by L can be any of the groups found in ballast groups, such as alkylene of 1 to 10 carbon atoms, arylene of 6 to 10 carbon atoms, heterocyclene of 5 to 10 carbon atoms, oxygen, sulfur, amino, amido. sulfonamido, carbamoyl, sulfamoyl, and combinations of such linking groups, e.g., alkarylene, aralkylene, aminoarylene, aminoalkylene, amidoarylene, amido- alkylene, ureido, alkarylamido, amidoarylsulfamoyl, aminoarylamido and aminoarylsulfamoylalkyl.
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- COUP is as defined above;
- 1, m and n are each individually 0 or 1;
- L1 represents a bivalent group selected from
- L2 represents, a bivalent group selected from
- L3 represents a bivalent group selected from
- R 1 and R3 are each individually hydrogen, alkyl of 1 to 20 carbon atoms or aryl of 6 to 20 carbon atoms;
- R2 is hydrogen or one or more halogen, alkyl or alkoxy substituents;
- X is -O- or -S- ;
- Q is
- r is 0 or 1; and
- s is 0 to 10.
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- L4 represents a bivalent group selected from
- COUP, R1 , R2 , R3, x, r and s are as defined above.
- In an especially preferred embodiment, the hydroxy group in structural formulae II and III is in the para position.
- In the above structural formulae the alkyl, alkylene, aryl, arylene and heterocyclene groups can be unsubstituted or substituted with one or more groups such as halogen, nitro, amino, carboxy, alkyl, alkoxy, aryl, aryloxy, heterocyclyl, carbamoyl, amido, sulfamoyl and sulfonamido.
- As indicated above, common yellow dye-forming couplers are acylacetanilides such as pivalylacetanilides and benzoylacetanilides. Common magenta dye-forming couplers are pyrazolones, pyrazolotriazoles, pyrasolobenzimidazoles and indazolones. Common cyan dye-forming couplers are phenols and naphthols, common neutral dye-forming couplers are resorcinols and m-aminophenols. Common non-dye-forming couplers are acyclic.and cyclic compounds in which the active position, corresponding to the coupling position, is adjacent to or in conjugation with a carbonyl group or an imino group, such as a- or Y-substituted ketones or imines, e.g. cyclopen- tanones, cyclohexanones, indanones, indanoimines, oxyindoles and oxazolinones. These couplers can form the coupling group COUP in the above formulae. Structures of representative coupling groups are shown below. In these structures Z represents hydro. gen or a coupling-off group and the unsatisfied bond, or bonds, indicates the preferred position, or positions, at which there can be attached the remainder of the molecule shown in the above structures; it being recognized that the coupling group can contain other substituents. Typical suitable coupling groups that can be used in the photographic elements of the invention are set out below.
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- Couplers used in the invention can be prepared by attaching a blocked hydroxyphenylsulfonyl or blocked hydroxyphenylsulfinyl group directly to the coupling group or by attaching such a group to the remainder of the ballast group after which the ballast group is attached to the coupling grcup. Thereafter the blocking group is remoived. Conventional condensation reactions can be employed in joining the various groups which ultimately form the coupler. For many of the couplers used in the invention it is convenient to provide the hydroxyphenylsulfonyl group using a 4,4'-sulfonyldiphenol mono ether (e.g. benzyl ether) or mono ester (e.g. acetyl ester.) Conventional reaction techniques can be employed to attach such a compound to the remainder of the ballast group and the thus formed ballast group to the coupling group. Thereafter, the blocking group can be removed by hydrogenation (in the case of the ether) or alkaline hydrolysis (in the case of an ester). When the coupler, or the remainder of the ballast group, has an amino group available for reaction, it is convenient to react that amino group with a blocked hydroxybenzene- sulfonyl chloride after which the blocking group is removed.
- The couplers used in the invention can be used in the ways and for the purposes that nondiffusible couplers are used in the photographic art.
- Typically, the couplers are incorporated in silver nalide emulsions and the emulsions coated on a support to form the photographic elements of the invention. Alternatively, the couplers can be incorporated in photographic layers adjacent a silver halide emulsion layer where, during development, the coupler will be in reactive association with develop ment products such as oxidized color developing agent. Thus, as used herein, the term "associated therewith" signifies that the coupler is in the sil- wex halide emulsion or in an adjacent location where, during processing, it will come into reactive associ- stion wich silver nalide development products.
- The photographic elements or che invention can be single color elements or multicolor elements. Multicolor elements contain dye image-forming uaits sensitive to each of the three primary rsgions of the spectrum. Each unit can be comprised of a single emulsion layer or of multiple emulsion layers sensitive to a given region of the spectrum. The layers of the photographic element, inclucing the cayers of the image-forming units, can be arranged in various orders as known in the art. In an alternative format, the emulsions sensitive to each of the three primary regions of the spectrum can be disposed as a single segmented layer, e.g., as by the use of micro- vessels as described in Belgian Patent 881,513.
- A typical multicolor photographic element of the invention comprises a support bearing a cyan dye image-forming unit comprised of at least one red-sensitive silver halide emulsion layer having associated therewith at least one cyan dae-forming ccoup ler, a magenta dye image-forming unit comprising at least one greea-sanaitive silver halide emulsion layer having associated therewith at least one magenta dye-forming coupler and a yellow dye image-forming unit comprising at least one blue-sensitive silver halide emulsion layer having associated therewith at least one yellow dye-forming coupler, at least one of the couplers in the element being a coupler as described above. The element can contain additional layers, such as filter layers, interlayers, overcoat layers, subbing layers, and the like.
- In the following discussion of suitable materials for use in the emulsions used in the invention, reference will be made to Research Disciosure, December 1978, Item 17643. This publication will be identified hereafter by the term "Research Disclosure."
- The silver halide emulsions employed in the photographic elements of this invention can be either negative-working or positive-working. Suitable emulsions and their preparation are described in Research Disclosure. Sections I and II and the publications cited therein. Suitable vehicles for the emulsion layers and other layers of elements of this invention are described in Research Disclosure Section IX and the publications cited therein.
- In addition to the couplers used in the invention, additional couplers as described in Research Disclosure Section VII, paragraphs D, E, F and G and the publications cited therein can be used. These couplers can be incorporated in the elements and emulsions as described in Research Disclosure Section VII paragraph C and the publications cited therein.
- The photographic elements of this invention or individual layers thereof, can contain brighteners (see Research Disclosure Section V), antifoggants and stabilizers (see Research Disclosure Section VI), antistain agents and image dye stabilizer (see Research Disclosure Section VII, paragraphs I and J), light absorbing and scattering materials (see Research Disclosure Section VIII), hardeners (see Research Disclosure Section XI); plasticizers and lubricants (see Research Disclosure Section XII), antistatic agents (see Research Disclosure Section XIII), matting agents (see Research Disclosure Section XVI) and- development modifiers (see Research Disclosure Section XXI).
- The photographic elements of che invention can be coat4d on a variety of supports as described in Research Disclosure Section XVII and the references described therein.
- Photographic elements of the invention can be exposed to actinic radiation, typically in the visible region of the spectrum, to form a latent image as described in Research Disclosure Section XVIII and then processed to form a visible dye image as described in Research Disclosure Section XIX. Processing to form a visible dye image includes the step oi contacting the element with a color developing agent to reduce developable silver halide and oxidize the color developing agent. Oxidized color developing agent in turn reacts with the coupler to yield a dye.
- Preferred color developing agents are p-phenylene diamines. Especially preferred are 4-amino-N,N-diethyl-aniline hydrcchloride, 4-amino-3-methyl-N,N-diethylaniline hydrochloride, 4-amino-3-methy-N-ethyl-N-β-(methanesulfonamido) ethylaniline sulfate hydrate, 4-amino-3-methyl-N-ethyl-N-β-hydroxyethylaniline sulfate, 4-amino-3-β-(methanesulfonamido)ethyl-N,N-diethyl-aniline hydrochloride and 4-amiao-N-ethyl-N-(2-methoxy ethyl)-m-toluidine di-p-toluene sulfonic acid.
- With negative working silver halide this processing step leads to a negative image. To obtain a positive (or reversal) image, this step can be preceded by developing exposed silver halide with a non-chromogenic developing agent without forming a dye, and then uniformly fogging the element to render unexposed silver halide developable. Alternatively, a direct positive emulsion can be employed to obtain a positive image.
- Development is followed by the conventional steps of bleaching and fixing, or bleaeh-fixing, to remove silver and silver halide, washing and drying.
- The following examples are included for a further understanding of this invention.
- B2 Cl, where Y - OBz (Bz is benzyl) To a solution of 90 g (0.31 mol) methyl 2-bromododecanoate and 104.4 g (0.31 mol) 4,4'-sulfonyldiphenol monobenzyl ether in 0.35 L dry acetone were added 1 g sodium iodide and 214.2 g (1.55 mol) potassium carbonate. After refluxing the mixture 20 h, solids were removed by filtration and the filtrate concentrated to a waxy solid. Recrystallization from methanol gave a white solid (B2OCH3, Y = OBz), mp 73-75°C, with the correct elemental analysis and expected NMR spectrum. A solution of 120 g (0.21 mol) of this product in 0.8 L dimethylformamide was added with stirring to 0.5 L of 2.3 M aqueous potassium hydroxide solution. water was added and the cloudy solution stirred 0.5 h before pouring into acidic ice-water. The resulting solid was collected, dissolved in dichloromethane, and the solution washed, dried over magnesium sulfate, and concentrated. Recrystallization from acetonitrile yielded 67 g white solid (B2 OH, Y = OBz), mp 119-121°C, wi.th the expected NMR spectrum and elemental analy- ais. This acid was converted to the acid chloride by dissolving 67 g (0.12 mol) in 0.4 L thionyl chloride and stirring 5 h. Excess thionyl chloride was removed under vacuum and the product recrystallized from dry acetonitrile to give a white solid (B2Cl, Y = OBz), mp 84-85°C, with the expected NMR spectrum and elemental analysis.
- A solution of 455 g (0.82 mol), B2 OCH3 , Y = OBz in 1.6 L tetrahydrofuran and 0.4 L acetic acid was hydrogenated 12 h at 50 psi and 50°C over 45 g 5% palladium on charcoal catalyst. The catalyst was removed by filtration and the concentrated filtrate drowned in water. An ethyl acetate solution of resulting white solid was washed, dried, concentratea, and the product recrystallized from acetonitrile to give 340 g (0.74 mol) white solid (B2CCH3, Y = OH), mp 63-65cC with the expected elemental analysis. Hydrolysis of this ester was accomplished by slowly adding an aqueous solution containing 40 g (1 mol) sodium hydroxide to a stirred solution of the ester in 1 L dimethylformamide, stirring 2 h then pouring into acidified ice-water. The resulting gummy solid dissolved in ethyl acetate was washed with dilute hydrochloric acid, dried, and concentrated. Recrystallization from acetonitrile yielded a white solid (B2OH, Y = OH), mp 116-117°C. This phenolic acid was acetylated by dissolving in 70 mL acetic anhydride and 7 mL concentrated surfuric acid, stirring 30 minutes at 20°C., then on a steam bath for 30 minutes, cooling, and pouring into 8 L water. The product was recrystallized from methanol to give a white solid (B2OH, Y = OAc), mp 73-75°C. Refluxing 35 g (0.07 mol) of this acid in excess thionyl chloride for 5 h and concentrating yielded a colorless oil, which on trituration in ligroin gave 22 g white solid (B2Cl, Y = OAc), mp 66-69°C.
- The procedural steps were similar to those for preparation of B2Cl in Preparative Example 1, except that ethyl 2-bromotetradecanoate was the starting material. Intermediates included white solids B3 OCH2 CH3, Y - OBz (mp 55-61°C); B3OH, Y - OBz (mp 117-118°C); and B3Cl, Y = OBz (mp 81-84°C).
- The procedural steps were similar to those for preparation of B2Cl in Preparative Example 1, except that ethyl 2-bromobutyrate was the starting material. Intermediates included white solids B1OCH2CH3 , Y = OBz (mp 102-105°C); B1OH, Y - OBz (mp 147.5-148.5°C); and B1Cl, Y = OBz (mp 40°C).
- A solution of 10.2 g (0.029 mol) methyl 2-p-nitrophenoxy)dodecanoate in 100 mL tetrahydrofuran was shaken 6 h under 40 psi hydrogen in the presence of 0.7 g 10% palladium on charcoal catalyst to reduce the nitro group. Then 6.3 mL (0.04 mol) N,N-dimethylaniline and 8.2 g (0.029 mol) p-benzyloxybenzenesulfonyl chloride were added and the mixture stirred 15 hours at 20°C. The catalyst was removed by filtration and the filtrate poured into cold dilute hydrochloric acid. Ethyl acetate extraction, washing, drying, concentration, and purification through silica gel yielded 14 g colorless oil (B4OCH3 , Y = OBz). This was dissolved in 60 mL tetrahydrofuran and 40 mL methanol, stirred 0.5 h with 20 mL aqueous sodium hydroxide solution and poured into cold dilute hydrochloric acid. Ethyl acetate extraction, washing, drying, concentration, ligroin trituration yielded 12 g white crystals (B4OH, Y = OBz), mp 100-101°C, with the correct elemental analysis. To a stirred solution of 10 g (0.018 mol) of this acid in 50 mL tetrahydrofuran was added 1.8 mL (0.022 mol) oxalyl chloride and 5 drops dimethyl formamide. After 1.5 h concentration gave 0.018 mol of brown oil B4Cl, Y = OBz.
- To a solution of 24 g (0.043 mol) acid chloride B2 Cl, Y=OBz in 400 mL tetrahydrofuran was added a 40% aqueous solution containing 10 g (0.125 mol) methylamine. After 0.5 h stirring, the mixture was poured over acidified ice-water, ext acted with diethyl ether, and the organic layer washed, dried, and concentrated to yield, after further purification on a 50:50 silica gel/Fluorisil (trade mark) column, a clear colorless oil (B2NHCH3, Y = OBz). Reduction was accomplished by refluxing-16 g (0.029 mol) of this amide product and 16 mL 2 M borane-methyl sulfide complex in 400 mL tetrahydrofuran for 3 h. The cooled reaction mixture was slowly acidified with 50% hydrochloric acid solution, then extracted with diethyl ether. Acidification and concentration of the washed and dried organic layer gave 14 g of white solid (B5H·HCl, Y = OH).
- Final steps in the synthetis of couplers used in this invention generally involved the attachment of the ballast group and the removal of the ballast blocking group, if any. For example, in Scheme I an amino-substituted coupling group, COUP-NH2, is allowed to react with an acid chloride ballast group and the resulting intermediate is converted to the desired coupler by hydrogenation to remove the benzyl group.
-
-
-
- A suspension of 5.4 g (0.018 mol) 2-(p-cyan- ophenylureido)-5-nitrophenol in 200 ml tetrahydrofuran was shaken overnight under 40 psi hydrogen with 1.6 10% palladium on charcoal catalyst and 0.3 mL acetic acid. Then 0.018 mol of the acid chloride B'Cl prepared in Preparative Example 5 and 6.8 mL dimethylaniline were added under nitrogen and the mixture stirred 0.5 h before removing the catalyst by filtration and pouring the filtrate into cold dilute hydrochloric acid. Ethyl acetate'extraction, washing, drying, concentration, and crystallization from acetonitrile yielded 10.2 g of the pale white solid benzyl ether of the desired coupler. A solution of this product in 100 ml tetrahydrofuran was shaken for 15 hours under 40 psi hydrogen with 2.5 g 10% palladium on charcoal catalyst and 0.5 ml acetic acid. The catalyst was removed by filtration and the reduction product concentrated and crystallized from acetonitrile to give 6.1 g white solid coupler C-8, mp 103-106°C, with an intrared spectrum and elemental analysis consistent with the desired structure.
- A solution of 50 g (0.115 mol) 3-(2-chloro-5-nitroanilino)-1-(2,4,6-trichlorophenyl)-2-pyrazolin-5-one in dimnethylformamide and tetrahydrofuran was reduced with 35 psi hydrogen and Raney nickel catalyst. Removal of the catalyst by filtration and concentration of the filtrate gave 21 g (0.052 mol) light yellow solid 3-(2-chloroy-5-aminoanilino-1-(2,-4,6-trichloropheyl)-2-pyrazolin-5-one. To an acetic acid solution containing 6.9 g (0.017 mol) of this amine and 9.5 g potassium acetate was added, in small portions, 9.5 g (0.019 mol) of the acid chloride B2 Cl prepared in Example 2. After stirring 15 hours, the mixture was concentrated to a third of its volume, poured into a large volume of water and extracted with diethyl ether. The organic layers were washed, dried, concentrated, and crystallized from methanol to give 14 g (0.016 mol) buff-colored solid acetate ester of the desired coupler, mp 115-116°C. To a solution of this product in dimethylformamide stirred under nitrogen was added an aqueous solution containing 2 g potass um hydroxide. After 15 minutes the mixture was acidified with hydrochloric acid, poured into dilute hydrochloric acid, extracted with diethyl ether, washed, dried, concentrated, and crystallized from methanol to give 9.2 g white crystalline coupler M-28, mp 127-130°C,
- A suspension of 10 g (0.035 mol) 6-methyl-3-[3-(p-nitrophenyl)-propyl]-1H-pyrazole[3,2-c]-5-tria zole in 300 mL tetrahydrofuran was shaken about 2 h at 25°C with 35 psi hydrogen and a palladium on charcoal catalyst. Removal of the catalyst, concentration of the filtrate, and recrystallization from acetonitrile gave a buff-colored solid amine, mp 194-6°C. To a stirred acetic solution of 7.6 g (0.03 mol) of this amine product and 2 g potassium acetate was added, in small portions, 16.7 g (0.03 mol) of the acid chloride B2Cl prepared in Example 1. After stirring 15 h, the mixture was poured into a large volume of water, extracted with diethyl ether, and the combined extracts then washed, dried, and concentrated to give the white solid benzyl ether of the desired coupler, mp 122-124°C. A concentrated solution of 7 g (0.009 mol) of the product in tetrahydrofuran was shaken 2 h under 40 psi hydrogen with a mixture of palladium on charcoal catalyst in ethanol. Removal of the catalyst by filtration. concentration, and recrystallization from acetonitrile gave 5.5 g cream-colored solid coupler M-8, mp 170-172°C, with an infrared spectrum and elementel analysis consistent with the desired compound.
- A mixture of 8 g (0.015 mol) 3-(2-chloro-4-fluorosulfonylanilino)-l-(2,6-dichloro-4-dimethyl sulfamoyl phenyl)-2-pyrazolin-5-one and 5.5 g aluminum chloride in 175 mL 1,2-dichloroethane was refluxed 15 minutes. After cooling to 20°C, 7.25 g (0.015 mol) of the amine salt B5H·HCl prepared in Example 6 in 25 mL pyridine was added and the mixture refluxed 2 h. Then a mixture of hydrochloric acid, ice, and diethyl ether was added and the organic lay er washed, dried, concentrated, and triturated with hexane to give 14.2 g light tan solid coupler M-32 with the correct elemental analysis.
- To a solution of 30.3 g (0.05 mol) a-pivalyl-α-[4-(p-benzyloxyphenylsulfonyl)phenoxy]-2-chloro-5-aminoacetanilide in 150 mL pyridine was added 11.8 g (0.05 mol) p-acetoxybenzenesulfonyl chloride at 20°C. After stirring for 15 hours, the mixture was poured onto 1 L of ice-water containing 50 mL concentrated hydrochloric acid. The resulting solid was collected, dissolved in 250 mL ethanol and treated with an alcoholic solution of potassium hydroxide. After stirring 1 h the mixture was poured over acidified ice-water. The collected solid gas then dissolved in boiling benzene and cyclohexane added to give a precipitate. Recrystallization from ethanol-cyclohexane yielded 23 g coupler Y-1, mp 174-175°C, with the correct elemental analysis.
- To a solution of 57.8 g (0.095 mol) α-pivalyl-a-[4-(p-benzyloxyphenylsulfonyl)-phenoxy]-2-chloro-5-amino acetanilide and 13 g quinoline, cooled to 0°C, was added in one portion 45 g (0.095 mol) of the acid chloride B1Cl prepared in Preparative Example 4. After stirring 1 h the reaction mixture was poured into 3 L cold water to produce 98 g (after oven drying) crude product. Recrystallization from toluene yielded 84.5 g (0.018 mol) white crystalline dibenzyl ether of the desired coupler. A suspension of 10.4 g (0.01 mol) of this product in 200 mL ethanol and 200 mL tetrahydrofuran was shaken 3 h under 35 psi hydrogen with palladium on charcoal catalyst. Removal of catalyst by filtration, concentration of the filtrate and trituration in hot cyclohexane gave a good yield of coupler Y-2 with the correct elemental analysis.
- Photographic elements of this invention and control elements were prepared and tested according to the procedures described below.
- All photographic elements were prepared by coating a cellulose acetate butyrate film support with a photosensitive layer containing a silver bromo-iodide emulsion at 0.91 g Ag/m2 (when the coupler is 4-equivalent) or 0.46 g Ag/m2 (when the coupler is 2-equivalent)., gelatin at 3.78 g/m2, and one of the couplers identified in Table I dispersed in one-half its weight of the coupler solvent described and coated at 1.62 x 10-3 moles/m2 . The photosensitive layer was overcoated . with a layer containing gelatin at 1.08 g/m2 and bis-vinyl-sulfonylmethyl ether at 1.75 weight percent based on total gelatin.
- Samples of each element were imagewise exposed through a graduated-density test object and processed at 40°C employing one of three color developing solutions identified below then stopped, bleached, fixed and washed.
- In each element, well-defined, magenta dye images were produced which were evaluated by plotting dye density vs. log exposure sensitometric curves and recording the maximum dye density (Dmax) and gamma (y) i.e., the contrast determined by the slope of the straight line portion of the curve. Additionally, dye hues were evaluated from spectrophotcmetric curves by measuring the maximum absorption peak (λmax) normalized to a density of 1.0 and the half band width (HBW). Halfband width is the width, in nanometers, of the spectrophotometric curve at one-half the difference between maximum density and stain. Similarly, the top-band width (TBW) and bottom-band width (BBW) of the curve were measured at three-fourths and one-fourth, respectively, of the normalized density. Curve shape factor (CSF) equals 100 X TbW/BBW and provides a ratio of the width near the top and bottom of the absorption curve. The greater this ratio, the steeper are the sides of the absorption peak, and the more efficient is the dye's absorption of light in its spectral region.
- All results are recorded in Table I.
- These results show that couplers of this invention have enhanced activity, which results in increased maximum dye density and gamma. In addition many of the dyes formed from couplers of this invention have absorption maxima at desirably longer wavelengths and have broader half band widths and larger curve shape factors, resulting in more efficient spectral absorption.
-
-
-
- CS-1- 1,4-Cyclohexylenedimethylene bis(2-ethylhexanoate)
- CS-2 - Tri-cresyl phosphate
- CS-3 - Dibutyl phthalate
- CS-4 - 2,4-Di-t-pentylphenol
-
-
- For each of the couplers identified below, photographic elements were prepared as described above in connection with Examples 1-14. Four samples from each element were exposed as described above. One pair of the exposed elements was developed in developer D-2, described above, and the other pair was developed in this developer to which had been added 1.5 g/L of the soluble competing cooler citrazinic acid. The remaining processing for one element from each pair was stopping, bleaching, fixing and washing while for the second element from each pair the bleaching step wasjomitted so that the developed silver remained in the element. For those elements in which the silver remained, the amount of developed silver, in g/m2, was determined by x-ray fluorescence analysis and plotted against exposure. For those elements from which the developed silver had been removed, dye density vs exposure curves were generated. From the plots for pairs of elements developed with the same developer composition there was plotted, for each exposure step, dye density vs developed silver. The slope of the line for the ele- ments developed in the absence of a competing coupler (Y in Table III, below) is a measure of the efficiency with which the coupler forms dye; the greater the slope the more efficient the coupler. The slope of the line for the elements developed in the presence of the competing coupler (Yc in Table III, below) is a measure of the reactivity of the coupler, the greater the slope, the more reactive the coupler.
- The couplers employed had the following structure:
Claims (8)
any alkyl, alkylene, aryl, arylene or heterocyclene group possibly being substituted.
any alkyl, alkylene, aryl, arylene or heterocyclene group possibly being substituted.
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US29608681A | 1981-08-25 | 1981-08-25 | |
US296086 | 1981-08-25 |
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EP0073636B2 EP0073636B2 (en) | 1992-09-09 |
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EP19820304461 Expired EP0073636B2 (en) | 1981-08-25 | 1982-08-24 | Photographic elements containing ballasted couplers |
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US4851326A (en) * | 1986-02-24 | 1989-07-25 | Fuji Photo Film Co., Ltd. | Method for processing silver halide color photographic materials using developer substantially free of bromide and benzyl alcohol |
JPH077194B2 (en) * | 1986-05-19 | 1995-01-30 | 富士写真フイルム株式会社 | Color image forming method and silver halide color photographic light-sensitive material |
US5110713A (en) * | 1987-10-30 | 1992-05-05 | Fuji Photo Film Co., Ltd. | Method for processing silver halide color photographic material |
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FR2746307B1 (en) | 1996-03-22 | 1998-04-30 | Oreal | KERATINIC FIBER DYEING COMPOSITIONS CONTAINING PYRROLO-AZOLES; USE AS COUPLERS; DYEING PROCESS |
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FR2786094B1 (en) | 1998-11-20 | 2001-01-12 | Oreal | KERATINIC FIBER OXIDATION DYE COMPOSITION AND DYEING METHOD USING THE SAME |
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US6702863B1 (en) | 1999-06-22 | 2004-03-09 | Lion Corporation | Hairdye composition |
FR2805737B1 (en) | 2000-03-06 | 2003-01-03 | Oreal | KERATINIC FIBER OXIDATION DYE COMPOSITION AND DYEING METHOD USING THE SAME |
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GB2029977A (en) * | 1978-08-29 | 1980-03-26 | Fuji Photo Film Co Ltd | Colour photographic silver halide lightsensitive material and colour image-forming process |
GB2038808A (en) * | 1978-11-14 | 1980-07-30 | Fuji Photo Film Co Ltd | Cyan colour couples and silver halide photograhic light-sensitive materials and processing method |
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GB1474128A (en) * | 1973-11-28 | 1977-05-18 | Eastman Kodak Co | Photographic multilayer silver halide colour materials |
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1982
- 1982-08-24 EP EP19820304461 patent/EP0073636B2/en not_active Expired
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- 1982-08-25 JP JP14752182A patent/JPS5842045A/en active Granted
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DE2529991A1 (en) * | 1974-07-05 | 1976-01-22 | Fuji Photo Film Co Ltd | Omega-substd. perfluoroalkylcarbonamino-substd. cyan coupler - for use in colour photographic matl., reducing blue absorption of image |
GB2029977A (en) * | 1978-08-29 | 1980-03-26 | Fuji Photo Film Co Ltd | Colour photographic silver halide lightsensitive material and colour image-forming process |
GB2038808A (en) * | 1978-11-14 | 1980-07-30 | Fuji Photo Film Co Ltd | Cyan colour couples and silver halide photograhic light-sensitive materials and processing method |
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US4513082A (en) * | 1983-03-28 | 1985-04-23 | Fuji Photo Film Co., Ltd. | Silver halide color photographic light-sensitive materials |
EP0143570A3 (en) * | 1983-11-02 | 1986-04-16 | Konishiroku Photo Industry Co. Ltd. | Silver halide color photographic material |
EP0178789A1 (en) * | 1984-09-14 | 1986-04-23 | Konica Corporation | Silver halide color photograhic material |
US4840886A (en) * | 1984-09-14 | 1989-06-20 | Konishiroku Photo Industry Co., Ltd. | Silver halide color photographic material containing a 1h-pyrazole (3,2-C)-s-triazole derived magenta coupler |
US5032497A (en) * | 1984-11-15 | 1991-07-16 | Konishiroku Photo Industry Co., Ltd. | Silver halide color photo-sensitive material |
EP0204175A1 (en) | 1985-05-09 | 1986-12-10 | Fuji Photo Film Co., Ltd. | Silver halide color photographic materials |
EP0452984A1 (en) | 1985-09-25 | 1991-10-23 | Fuji Photo Film Co., Ltd. | Process for processing silver halide color photographic material for photographing use |
EP0217255A3 (en) * | 1985-10-03 | 1989-04-26 | Agfa-Gevaert Ag | Colour-photographic recording material with easily dispersible colour couplers |
EP0217255A2 (en) * | 1985-10-03 | 1987-04-08 | Agfa-Gevaert AG | Colour-photographic recording material with easily dispersible colour couplers |
US4769313A (en) * | 1985-11-22 | 1988-09-06 | Fuji Photo Film Co., Ltd. | Image forming method utilizing accelerated desilverization of color photographic material containing magneta coupler |
EP0253390A2 (en) | 1986-07-17 | 1988-01-20 | Fuji Photo Film Co., Ltd. | Photographic support and color photosensitive material |
EP0266797A2 (en) | 1986-11-07 | 1988-05-11 | Fuji Photo Film Co., Ltd. | Method of processing silver halide color photographic material and photographic color developing composition |
EP0272041A2 (en) * | 1986-12-18 | 1988-06-22 | EASTMAN KODAK COMPANY (a New Jersey corporation) | Photographic acetanilide couplers with novel ballast group and photographic elements containing them |
EP0272041A3 (en) * | 1986-12-18 | 1989-07-19 | Eastman Kodak Company | Photographic acetanilide couplers with novel ballast group and photographic elements containing them |
EP0313083A2 (en) | 1987-10-22 | 1989-04-26 | Fuji Photo Film Co., Ltd. | Silver halide color photographic material |
EP0320939A2 (en) | 1987-12-15 | 1989-06-21 | Fuji Photo Film Co., Ltd. | Silver halide color photographic material |
EP0359169A3 (en) * | 1988-09-14 | 1990-12-27 | Eastman Kodak Company | Photographic recording material comprising magenta coupler and a chalcogenazolium salt |
EP0359169A2 (en) * | 1988-09-14 | 1990-03-21 | Eastman Kodak Company | Photographic recording material comprising magenta coupler and a chalcogenazolium salt |
EP0435334A2 (en) | 1989-12-29 | 1991-07-03 | Fuji Photo Film Co., Ltd. | Silver halide color photographic material containing yellow colored cyan coupler |
EP0440195A2 (en) | 1990-01-31 | 1991-08-07 | Fuji Photo Film Co., Ltd. | Silver halide color photographic material |
EP0452886A2 (en) | 1990-04-17 | 1991-10-23 | Fuji Photo Film Co., Ltd. | Method of processing a silver halide color photographic material |
EP0720049A2 (en) | 1990-05-09 | 1996-07-03 | Fuji Photo Film Co., Ltd. | Photographic processing composition and processing method using the same |
EP0476327A1 (en) | 1990-08-20 | 1992-03-25 | Fuji Photo Film Co., Ltd. | Data-retainable photographic film product and process for producing color print |
EP0500043A1 (en) * | 1991-02-18 | 1992-08-26 | Fuji Photo Film Co., Ltd. | Silver halide photographic light-sensitive material |
US5302503A (en) * | 1991-02-18 | 1994-04-12 | Fuji Photo Film Co., Ltd. | Silver halide photographic light-sensitive material |
EP0562476A1 (en) | 1992-03-19 | 1993-09-29 | Fuji Photo Film Co., Ltd. | A silver halide photographic emulsion and a photographic light-sensitive material |
EP0563708A1 (en) | 1992-03-19 | 1993-10-06 | Fuji Photo Film Co., Ltd. | Silver halide photographic emulsion and light-sensitive material using the same |
EP0563985A1 (en) | 1992-04-03 | 1993-10-06 | Fuji Photo Film Co., Ltd. | Silver halide color photographic material |
EP0570006A1 (en) | 1992-05-15 | 1993-11-18 | Fuji Photo Film Co., Ltd. | A silver halide photographic light-sensitive material |
US5372920A (en) * | 1992-05-20 | 1994-12-13 | Eastman Kodak Company | Photographic material having contiguous red layers |
EP0607905A2 (en) | 1993-01-18 | 1994-07-27 | Fuji Photo Film Co., Ltd. | Silver halide photographic material |
EP0654705A2 (en) | 1993-11-24 | 1995-05-24 | Fuji Photo Film Co., Ltd. | Photographic processing composition and method of photographic processing using the same |
WO1996013755A1 (en) | 1994-10-26 | 1996-05-09 | Eastman Kodak Company | Photographic emulsions of enhanced sensitivity |
EP0789018A1 (en) * | 1996-02-12 | 1997-08-13 | Bayer Ag | Hydrogenation of halonitroaromatic compounds |
US5801284A (en) * | 1996-02-12 | 1998-09-01 | Bayer Aktiengesellschaft | Hydrogenation of halonitroaromatic compounds |
EP0800113A2 (en) | 1996-04-05 | 1997-10-08 | Fuji Photo Film Co., Ltd. | Silver halide color photographic light-sensitive material |
EP1582919A1 (en) | 2004-03-23 | 2005-10-05 | Fuji Photo Film Co. Ltd. | Silver halide photosensitive material and photothermographic material |
EP1635216A1 (en) | 2004-09-14 | 2006-03-15 | Fuji Photo Film Co., Ltd. | Photothermographic material |
EP1754758A2 (en) | 2005-08-17 | 2007-02-21 | Fuji Photo Film Co., Ltd. | Ink composition comprising an onium salt and a cationically polymerisable compound, inkjet recording method, printed material, process for producing lithographic printing plate, and lithographic printing plate |
EP2145931A1 (en) | 2008-07-16 | 2010-01-20 | Fujifilm Corporation | Photo-curable composition, ink composition, and inkjet recording method using the ink composition |
EP2169021A1 (en) | 2008-09-25 | 2010-03-31 | Fujifilm Corporation | Ink composition, inkjet recording method, and printed material |
Also Published As
Publication number | Publication date |
---|---|
EP0073636B1 (en) | 1987-03-18 |
JPS5842045A (en) | 1983-03-11 |
DE3275761D1 (en) | 1987-04-23 |
JPH0551889B2 (en) | 1993-08-03 |
EP0073636B2 (en) | 1992-09-09 |
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