US2311015A - Method of producing dye images - Google Patents

Method of producing dye images Download PDF

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Publication number
US2311015A
US2311015A US411970A US41197041A US2311015A US 2311015 A US2311015 A US 2311015A US 411970 A US411970 A US 411970A US 41197041 A US41197041 A US 41197041A US 2311015 A US2311015 A US 2311015A
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Prior art keywords
layer
dye
image
bleaching
photographic
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Expired - Lifetime
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US411970A
Inventor
Richard V Young
Ehrenfried George
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Eastman Kodak Co
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Eastman Kodak Co
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Publication date
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Priority to US411970A priority Critical patent/US2311015A/en
Priority to GB12462/41A priority patent/GB553566A/en
Application granted granted Critical
Publication of US2311015A publication Critical patent/US2311015A/en
Priority to FR953810D priority patent/FR953810A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • 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
    • G03C7/28Silver dye bleach processes; Materials therefor; Preparing or processing such materials

Definitions

  • This invention relates to a method for producing colored photographic images and particularly to a method of forming colored images in the bleach-out process of color photography.
  • the first application of the bleach-out process of color photography was described by Christensen U. 8. Patent 1,517,049, November 25, 1924.
  • the Christensen process consisted in producing a colored image by bleaching a dyed gelatin layer containing'a-silver image in a solution of a strong reducing agent such as sodium hydrosulflte or stannous chloride, to decolorize the dye in the regions of the silver image.
  • the Christensen process made use of water-soluble polyazo dyes as image forming dyes.
  • the principal object of the present invention to provide a method for bleaching a polyazo dye in the region of a silver photographic image with a sodium stannite bleach bath.
  • a further object is to produce a photographic image formed of a pclyalo dye by bleaching portions of the dye in the region of a silver image.
  • the photographic element to our invention may comprise a single emulsion layer or a plurality of emulsion layers coated on one or both sides of a suitable support.
  • the support may be transparent material such as glass, cellulose ester or synthetic resin or an opaque material such as a pigmented cellulose ester or pap r.
  • the three emulsion layers preferably contain dyes each of which is roughly complementary in color to the effective sensitivity of the emulsion layer in which it is coated.
  • the outer layer is blue-sensitive and colored yellow
  • the middle layer is green-sensitive and colored magenta
  • the layer nearest the support is red-sensitive and colored blue-green.
  • the yellow image-forming dye in the outer emulsion layer absorbs the blue light which otherwise would fog the middle and inner emulsion layers.
  • a separate filter dye may be incorporated in the outer emulsion layer or in a filter layer located between the outer and middle emulsion layers.
  • the essential feature of our invention is the treatment of the photographic layer with a dilute aqueous solution of a strong acid after fixing and before bleaching.
  • this treatmerit does not destroy the dye in the layer but in the case of dyes difllcult to bleach with sodium stannite, we have found that the layer treated in this way can be more readily bleached by sodium stannite than without such treatment.
  • Strong acids suitable for this treatment include hydrochloric, nitric and sulfuric acids.
  • a preferred bath is one made by mixing 10 cc. of concentrated sulfuric acid with enough water to make one liter of solution.
  • fBy strong acid we mean an acid which is highly ionized, usually to an extent of about or more when mixed with water. It will be readily understood that many strong acids are not highly ionizedin concentrated solution but are more nearly completely ionized in dilute solution.
  • a photographic layer is exposed in a suitable manner such as under a color separation image or under a natural color transparency in the case of a multi-layer element.
  • the element is then developed for about 8 minutes at 68 F. in a solution of the following developer:
  • the print is then placed for 2 minutes in a stop bath which may have the following composition:
  • Cupric chloride (CuClz.2I-Iz) grams 100 Hydrochloric acid (concentrated) cc 25 Water to liter 1 1
  • the silver salt thus formed is removed by fixing in a fixing solution such as that described above.
  • the dyes which may be used to form the photographic image or images according to our invention include the cyan dye, Pontamine East Green BL (du Pont), the magenta dye made by tetrazotizing 4,4 diamino 3,3',6,6' tetramethyltriphenylmethane and coupling it with heptoyl H acid, and the even dye made by diazotizing pamino-N-methylacetanilide, and coupling the product with ethoxy Cleves acid (1,6) and then diazotizing this product and coupling it with N(4"-amZno-4'-benzoyl amino benzoyl) gamma acid.
  • the emulsion layers in the case of a multi-layer element need not be colored complementary to their sensitivity but may be colored with a dye that transmits the color for which the layer in which it is incorporated is mainly sensitive. Layers colored in this way obviously do not a natural color image directly.
  • the method oi forming a coloredfimage in a photographic layer containing a bleachable polyazo dye uniformly dispersed therein and a silver image, which comprises treating the layer in a dilute solution of a strong acid. and then bleaching the dye in the region of the silver produce image in an alkaline stannous chloride bleach bath.
  • the method of forming a colored image in a photographic layer containing a bleachable polyazo dye and unexposed silver halide uniformly dispersed therein which comprises exposing and developing said layer, removing the undeveloped silver halide without affecting the silver image formed by development, treating the layer in a dilute solution of r a strong acid and then bleaching the dye in the region of said image in an alkaline stannous chloride bleach bath to form a colorless compound and leave unaflected the dye in the remaining portions of the layer.
  • the method of forming a colored image in a photographic layer containing a bleachable polyazo dye and unexposed silver halide uniform- 'ly dispersed therein which comprises exposing and developing said layer, removing the undeveloped silver halide without affecting the silver image formed by development, treating the layer in a dilute solution of sulfuric acid and then bleaching the dye in the region of said image in an alkaline stannous chloride bleach bath to form a colorless compound and leave unaffected the dye in the remaining portions of the layer.
  • the method of forming a colored image in a photographic layer containing a bleachable polyazo dye and unexposed silver halide uniformly dispersed therein which comprises exposingand developing said layer, removing the undeveloped silver halide without afiecting the silver image formed by development, treating the layer in a dilute solution of nitric acid and then bleaching the dye in the region of said image in an alkaline stannous chloride bleach bath to form aggregaterless compound and leave unaffected the dye in the remaining portions of the layer.
  • the step which comprises treating the dye containing layer prior to bleaching with a dilute solution of a strong acid comprises treating the dye containing layer prior to bleaching with a dilute solution of a strong acid.

Description

Patented Feb. 16, 1943 2,311,015 sm'rnon or PRODUCING pm moss Richard V.
Young and George Ehrenfried, Rochester, N. Y., aasignors to Eastman Kodak Com- .pany, Rochester, N. Jersey 1 a corporation of New No Drawing. Application September 23, 1941,
- Serial No. 411,910
11 Claims. (01. 95-6) This invention relates to a method for producing colored photographic images and particularly to a method of forming colored images in the bleach-out process of color photography.
. The first application of the bleach-out process of color photography was described by Christensen U. 8. Patent 1,517,049, November 25, 1924. As is now well known, the Christensen process consisted in producing a colored image by bleaching a dyed gelatin layer containing'a-silver image in a solution of a strong reducing agent such as sodium hydrosulflte or stannous chloride, to decolorize the dye in the regions of the silver image. The Christensen process made use of water-soluble polyazo dyes as image forming dyes.
In Seymour U. 8. Patent 2,184,022, December 19,1939, a somewhat similar but improved process was described in which vat dyes were used in place of azo dyes and sodium stannite was employed in place of stannous chloride as a bleach bath. It was found that better bleaching could be accomplished by the use of sodium stannite than by the use of the-stannous chloride or the sodium hydrosulflte of Christensen, especially with vat dyes.
'When the sodium stannite treatment of the Seymour U. 8. Patent 2,184,022 was extended to the treatment of polyazo dyes it'was found that many such dyes bleached only slightly when treated with sodium stannite in the presence of a silver photographic image. Means, accordingly, were sought to increase the bleaching action on numerous polyazo dyes.
It is, therefore, the principal object of the present invention to provide a method for bleaching a polyazo dye in the region of a silver photographic image with a sodium stannite bleach bath. A further object is to produce a photographic image formed of a pclyalo dye by bleaching portions of the dye in the region of a silver image. Other objects will appear from the following description of our invention.
These objects are accomplished by exposing, developing and fixing a photographic layer con-- taining a polyazo dye uniformly dispersed therein, and then soaking the layer in a dilute solue tion of a strong acid prior to bleaching the dye selectively in an alkaline stannouschloride bleach bath.
The photographic element to our invention may comprise a single emulsion layer or a plurality of emulsion layers coated on one or both sides of a suitable support. The support may be transparent material such as glass, cellulose ester or synthetic resin or an opaque material such as a pigmented cellulose ester or pap r. may contain a uniformly dispersed dye prior to The emulsion layer or layers treated according exposure and also may contain a dye intermediate from which a colored compound may be formed, after exposure. If a three-layer photographic element is used for the production of natural color images, the three emulsion layers preferably contain dyes each of which is roughly complementary in color to the effective sensitivity of the emulsion layer in which it is coated. It will be understood that in the normal arrangement of the layers, such as that described in the Christensen Patent 1,517,049, the outer layer is blue-sensitive and colored yellow, the middle layer is green-sensitive and colored magenta and the layer nearest the support is red-sensitive and colored blue-green. The yellow image-forming dye in the outer emulsion layer absorbs the blue light which otherwise would fog the middle and inner emulsion layers. As further protection a separate filter dye may be incorporated in the outer emulsion layer or in a filter layer located between the outer and middle emulsion layers.
The essential feature of our invention is the treatment of the photographic layer with a dilute aqueous solution of a strong acid after fixing and before bleaching. Usually this treatmerit does not destroy the dye in the layer but in the case of dyes difllcult to bleach with sodium stannite, we have found that the layer treated in this way can be more readily bleached by sodium stannite than without such treatment. Strong acids suitable for this treatment include hydrochloric, nitric and sulfuric acids. A preferred bath is one made by mixing 10 cc. of concentrated sulfuric acid with enough water to make one liter of solution. fBy strong acid we mean an acid which is highly ionized, usually to an extent of about or more when mixed with water. It will be readily understood that many strong acids are not highly ionizedin concentrated solution but are more nearly completely ionized in dilute solution. We include within the scope of our invention the use of organic as well as inorganic strong acids.
The method of processing a photographic layer according .to our invention will now be described.
A photographic layer is exposed in a suitable manner such as under a color separation image or under a natural color transparency in the case of a multi-layer element. The element is then developed for about 8 minutes at 68 F. in a solution of the following developer:
Monomethyl-p amlnophenol sulfate--.
The print is then placed for 2 minutes in a stop bath which may have the following composition:
Acetic acid (28%) cc 500 Water liters 4 The element is then thoroughly fixed in acid hypo of the following composition:
Water (about 125 F.) cc 600 Sodium thiosulfate grams 240 Sodium sulfite. (dessicated) do 15 Acetic acid (28%) cc 48 Boric acid crystals grams 7.5 Potassium alum -do 15 Water liters 1 The element is again washed and is tizen treated for 16 minutes in an acid bath of the following composition:
Sulfuric acid (concentrated) cc 10 Water to liter 1 After the treatment in the acid bath, the element is placed immediately in a suitable bleaching solution such as one having the following composition:
Cupric chloride (CuClz.2I-Iz) grams 100 Hydrochloric acid (concentrated) cc 25 Water to liter 1 1 The silver salt thus formed is removed by fixing in a fixing solution such as that described above.
The dyes which may be used to form the photographic image or images according to our invention include the cyan dye, Pontamine East Green BL (du Pont), the magenta dye made by tetrazotizing 4,4 diamino 3,3',6,6' tetramethyltriphenylmethane and coupling it with heptoyl H acid, and the even dye made by diazotizing pamino-N-methylacetanilide, and coupling the product with ethoxy Cleves acid (1,6) and then diazotizing this product and coupling it with N(4"-amZno-4'-benzoyl amino benzoyl) gamma acid.
The emulsion layers in the case of a multi-layer element need not be colored complementary to their sensitivity but may be colored with a dye that transmits the color for which the layer in which it is incorporated is mainly sensitive. Layers colored in this way obviously do not a natural color image directly.
Other modifications of the invention will be apparent to those skilled in the-art and it is to be understood that our invention is to be taken as limited only by the scope of the appended claims.
We claim: s
1'. The method oi forming a coloredfimage in a photographic layer containing a bleachable polyazo dye uniformly dispersed therein and a silver image, which comprises treating the layer in a dilute solution of a strong acid. and then bleaching the dye in the region of the silver produce image in an alkaline stannous chloride bleach bath.
2. The method of forming a colored image in a photographic layer containing a bleachable polyazo dye and unexposed silver halide uniformly dispersed therein, which comprises exposing and developing said layer, removing the undeveloped silver halide without affecting the silver image formed by development, treating the layer in a dilute solution of r a strong acid and then bleaching the dye in the region of said image in an alkaline stannous chloride bleach bath to form a colorless compound and leave unaflected the dye in the remaining portions of the layer.
3. The method of forming a colored image in a photographic layer containing a bleachable polyazo dye and unexposed silver halide uniform- 'ly dispersed therein, which comprises exposing and developing said layer, removing the undeveloped silver halide without affecting the silver image formed by development, treating the layer in a dilute solution of sulfuric acid and then bleaching the dye in the region of said image in an alkaline stannous chloride bleach bath to form a colorless compound and leave unaffected the dye in the remaining portions of the layer.
4. The method of forming a colored image in a photographic layer containing a bleachable polyazo dye and unexposed silver halide uniformly dispersed therein, which comprises exposing and developing said layer, removing the undeveloped silver halide without aifecting the silver image formed by development, treating the layer in a dilute solution of hydrochloric acid and then bleaching the dye in the region of said image in an alkaline stannous chloride bleach bath to form a colorless compound and leave unaffected the dye in the remaining portions of the layer.
5. The method of forming a colored image in a photographic layer containing a bleachable polyazo dye and unexposed silver halide uniformly dispersed therein, which comprises exposingand developing said layer, removing the undeveloped silver halide without afiecting the silver image formed by development, treating the layer in a dilute solution of nitric acid and then bleaching the dye in the region of said image in an alkaline stannous chloride bleach bath to form acolorless compound and leave unaffected the dye in the remaining portions of the layer.
6. In the method of forming a colored photographic image by bleaching a polyazo dye in the region of a silver photographic image with alkaline stannous chloride, the step which comprises treating the dye containing layer prior to bleaching with a dilute solution of a strong acid.
7. In the method of forming a colored photographic image by bleaching a polyazo dye in the region'of a silver photographic image with alkaline stannous chloride the step which comprises treating the dye-containing layer prior to bleaching with a dilute solution of sulfuric acid.
8. In the method of forming a colored photographic image by bleaching a polyazo dye in the region of a silver image, the steps which comprise treating a layer containing said dye and silver image with a dilute solution of a strong acid and then bleaching the dye in the region of the silver image with an alkaline stannous. chloride solution.
RICHARD V. YOUNG. GEORGE EI-IRENFRIED.
US411970A 1941-09-23 1941-09-23 Method of producing dye images Expired - Lifetime US2311015A (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
US411970A US2311015A (en) 1941-09-23 1941-09-23 Method of producing dye images
GB12462/41A GB553566A (en) 1941-09-23 1941-09-25 Improvements in methods of colour photography
FR953810D FR953810A (en) 1941-09-23 1947-08-04 Improvement in methods for obtaining dye images

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2445581A (en) * 1943-12-09 1948-07-20 Polaroid Corp Treatment of polarizing polyvinyl alcohol-iodine sorption complex image with boric acid
US2494765A (en) * 1944-11-10 1950-01-17 Keuffel & Esser Co Chemical erasing of photographic silver images
US3413680A (en) * 1965-07-30 1968-12-03 Rowe Mfg Company Spiral counterbalance unit
US4304847A (en) * 1978-11-13 1981-12-08 Fuji Photo Film Co., Ltd. Color image forming dye bleach process

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2445581A (en) * 1943-12-09 1948-07-20 Polaroid Corp Treatment of polarizing polyvinyl alcohol-iodine sorption complex image with boric acid
US2494765A (en) * 1944-11-10 1950-01-17 Keuffel & Esser Co Chemical erasing of photographic silver images
US3413680A (en) * 1965-07-30 1968-12-03 Rowe Mfg Company Spiral counterbalance unit
US4304847A (en) * 1978-11-13 1981-12-08 Fuji Photo Film Co., Ltd. Color image forming dye bleach process

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Publication number Publication date
GB553566A (en) 1943-05-27
FR953810A (en) 1949-12-14

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