US3241971A - Photographic silver halide emulsions - Google Patents

Photographic silver halide emulsions Download PDF

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US3241971A
US3241971A US303146A US30314663A US3241971A US 3241971 A US3241971 A US 3241971A US 303146 A US303146 A US 303146A US 30314663 A US30314663 A US 30314663A US 3241971 A US3241971 A US 3241971A
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silver halide
mole percent
emulsion
percent based
radiation
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Theodore J Kitze
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Eastman Kodak Co
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Eastman Kodak Co
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Priority to BE620828D priority Critical patent/BE620828A/xx
Priority to DEE23040A priority patent/DE1170778B/de
Priority to FR905159A priority patent/FR1329911A/fr
Priority to GB28746/62A priority patent/GB976261A/en
Priority to US303146A priority patent/US3241971A/en
Application filed by Eastman Kodak Co filed Critical Eastman Kodak Co
Priority to DEE27589A priority patent/DE1278237B/de
Priority to FR985230A priority patent/FR1404277A/fr
Priority to BE651931A priority patent/BE651931A/xx
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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
    • G03C1/00Photosensitive materials
    • G03C1/005Silver halide emulsions; Preparation thereof; Physical treatment thereof; Incorporation of additives therein
    • G03C1/49Print-out and photodevelopable emulsions

Definitions

  • the present invention relates to photography, and more particularly to light-developable or direct-print photographic silver halide emulsions.
  • Radiation-sensitive papers adapted for light recording, e.g., oscillographic recording, are known. Typical of such papers are the developing-out and print-out type.
  • the developing-out type requires that the exposed material be chemically developed, fixed and washed in order to provide a stable visible image on said material.
  • the print-out type of material develops on exposure and requires no development step.
  • the print-out type is generally much slower than the developing-out type and the images are unstable and have a short life.
  • a third type of radiation-sensitive material especially suitable for light-writing and oscillographic recording comprises a hydrophilic colloid-silver halide emulsion layer which, when exposed to a high intensity source of electromagnetic radiation, forms a latent image which can then be developed by subsequent general exposure to a second source of radiation of lower intensity.
  • Such directwriting or direct-print emulsions are faster than print-out emulsions and require no chemical development.
  • many of the recording papers of this third type have a slow rate of photodevelopment and the background areas tend to build up to obscure the image on subsequent exposure to light.
  • a wide variety of mercaptans or thiones having a mercapto group (SH) or a thione group 8) attached to a heterocyclic nucleus can be utilized in the emulsions of the invention.
  • Useful heterocyclic mercaptans or thiones have at least one mercapto or thione group attached to a cyclic nucleus having at least one, and more generally 1 to 4, nitrogen atoms.
  • Such heterocyclic mercaptans and thiones can contain other hetero-atoms in addition to hetero-nitrogen atoms such as hetero-oxygen atoms and hetero-sulfur atoms.
  • Typical useful heterocyclic mercaptans and thiones include mercaptotetrazoles, rnercaptothiazoles, mercaptoimidazoles, mercaptotriazolotriazoles, mercaptoazaindenes, mercaptothiadiazines, mercaptothiadiazoles, mercaptopiperazines, mercaptobenzoxazoles, mercaptooxazolidines, mercaptobenzimidazoles, oxazoline-thiols, mercaptotriazines, mercaptotriazoles, mercaptodiazanaphthalenes and other well-known heterocyclic mercaptans.
  • Preferred heterocyclic mercaptans are those that form substantially water-insoluble silver salts.
  • Illustrative heterocyclic mercaptan and thione halogen acceptors of the invention include S-amino-Z-mercapto- 1 ,3 ,4-thiadiazole,
  • Useful aromatic mercaptan halogen acceptors are mercaptans having at least one mercapto group attached to an aromatic nucleus such as a benzene or a naphthalene nucleus.
  • Useful aromatic mercaptan halogen acceptors include thiosalicylic acid, Z-naphthalenethiol, benzenethiol and the like.
  • a particularly useful class of mercaptans or thiols that can be utilized in the emulsions of the invention with or without cupric salts are substituted thiourea halogen acceptors.
  • Typical suitable substituted thioureas have the structure.
  • R and R can be hydrogen atoms, alkyl groups and including substituted alkyl groups, aryl groups such as those of the naphthyl and phenyl series, acyl groups wherein R can be an alkyl or an aryl group such as those of the naphthyl and aryl series, and together the necessary atoms to make a heterocyclic nucleus with the thiourea structure to form such cyclic compounds as a triazolethiol, an imidazolethione, an imidazoline-thione, a triazine-thiol, a thiobarbituric acid, a thiouracil or the like cyclic thioureas and including such substituents as alkyl groups and aryl groups such as those of the naphthyl and phenyl series; R and R can be hydrogen atoms, alkyl groups and including substituted alkyl groups, aryl groups such as those of the naphthyl and phenyl
  • Typical suitable substituted thioureas are set out above in the list of heterocyclic mercaptans and thiones.
  • Other suitable substituted ureas include:
  • Tetramethylthiourea Tetramethylthiourea, l-isopentyl-2-thiourea, l-phenyl-Z-thiourea, 1,3-diphenyl thiourea, 1-acetyl-2-thiourea, 1,3-dibenzylthiourea, 1,1-diphenyl-2-thiourea, l-ethyll tat-naphthyl -2-thiourea, and 1-(o-methoxyphenyl)-2-thiourea.
  • concentration of mercaptan and thione halogen acceptors utilized in the emulsions of the invention can be widely varied, amounts in excess of those generally utilized for antifoggant purposes in conventional developing-out emulsions being utilized in the present instance. Generally about .1 to 50 mole percent, and preferably about 1 to 10 mole percent, based on the silver halide in the emulsion of the heterocyclic mercaptan or the aromatic mercaptan is utilized.
  • cupric salts can be used in the emulsions of the invention.
  • Typical cupric salts are cupric acetate, cupric sulfate, cupric nitrate, and the like. Cupric salts that can be readily incorporated into photographic emulsions in accordance with usual practice are utilized. Hence, water-soluble salts and salts soluble in water-miscible solvents such as methanol, ethanol and the like are generally used.
  • the amount of cupric salt utilized can be widely varied, although amounts of about .5 to mole percent, and preferably about 1 to 20 mole percent, based on the silver halide are utilized.
  • silver halide emulsions are generally made with an equivalent or slight excess of halide ion present, I have found it desirable to add additional water-soluble iodide to the silver halide emulsion after its precipitation but before it is coated More generally, about .1 to 50 mole percent, and preferably about 1 to 10 mole percent of water-soluble iodide based on the silver halide in the emulsion is used.
  • Illustrative water-soluble iodides include ammonium, calcium, lithium, magnesium, potassium, or sodium iodide.
  • Suitable silver halides include silver chloride, silver bromide, silver bromoiodide, silver chloroiodide, and silver chlorobromoiodide.
  • suitable emulsions reference is made to Davey et al., U.S. Patent 2,592,250, issued April 8, 1952; Glafkides, Photographic Chemistry, vol. 1, pp. 31-2, Fountain Press, London; and McBride application Serial No.
  • the present silver halide emulsions generally have an average grain size of about .1 to 10 microns, and more generally about .5 to 1 micron.
  • the so-called internal image emulsions are particularly useful in the invention, such emulsions comprismg silver halide grains having a substantial amount, and preferably a predominant amount, of sensitivity internal to the grain.
  • such internal image emulsions are those which, when measured according to normal photographic techniques by coating 21 test portion of the emulsion on a transparent support, exposing to a light intensity scale having a fixed time between 1 10- and 1 second, bleaching 5 minutes in a 0.3% potassium fern'cyanide solution at 65 F. and developing for about 5 minutes at 65 F.
  • Developer B below an internal-type developer
  • Developer A below a surface-type developer
  • a large variety of hydrophilic, water-permeable organic colloids can be suitably utilized in preparing the silver halide emulsions or dispersions of the invention.
  • Gelatin is preferably utilized although other colloidal material such as colloidal albumin, cellulose derivatives, synthetic resins or the like can be utilized.
  • Suitable colloids that can be used are polyvinyl alcohol or. a hydrolyzed polyvinyl acetate as described in Lowe, US. Patent 2,286,215, issued June 16, 1942; a far hydrolyzed cellulose ester such as cellulose acetate hydrolyzed to an acetyl content of 19 to 26% as described in US.
  • Patent 2,768,154 issued October 23, 1956; or containing cyano-acetyl groups such as the vinyl alcohol-vinyl cyanoacetate copolymer as described in Unruh, Smith and Priest, US. Patent 2,808,331, issued October 1, 1957; or a polymeric material which results from polymerizing a protein or a saturated acylated protein with a monomer having a vinyl group as described in Illingsworth, Dann and Gates, US. Patent 2,852,382, issued September 19, 1958.
  • cyano-acetyl groups such as the vinyl alcohol-vinyl cyanoacetate copolymer as described in Unruh, Smith and Priest, US. Patent 2,808,331, issued October 1, 1957; or a polymeric material which results from polymerizing a protein or a saturated acylated protein with a monomer having a vinyl group as described in Illingsworth, Dann and Gates, US. Patent 2,852,382, issued September 19, 1958.
  • the subject photodevelopable photographic silver halide emulsions of the invention can contain the addenda generally utilized in such products including gelatin hardeners, gelatin plasticizers, coating aids and the like.
  • Typical supports for photographic elements of the invention include paper, cellulose nitrate film, cellulose acetate film, polyvinyl acetal film, polystyrene film, polyethyleneterephthalate film and related fims of resinous materials and others.
  • the photographic element is initially exposed to a high intensity source of electromagnetic radiation such as a high intensity light source rich in blue and ultraviolet light such as are used in oscillographs described in Heiland, U.S. Patent 2,580,427, issued January 1, 1952, high intensity visible light, X-radiation and the like, to form a latent image in the emulsion of the photographic element, and thereafter the resulting latent image is photodeveloped by overall exposure of the emulsion to a radiation source of less intensity than the original exposure, such as to a convention fiuoroescent light, light from incandescent lamps commonly used for general illumination, or even ordinary daylight.
  • a radiation source of less intensity than the original exposure such as to a convention fiuoroescent light, light from incandescent lamps commonly used for general illumination, or even ordinary daylight.
  • the latent image formed in the emulsion in the first instance is not visible and does not become visible until photodevelopment.
  • Heat is desirably utilized during the photodevelopment step.
  • the subject emulsions are heated to a temperature of about 90 C. to 200 C. for about 1 to 30 seconds and photodeveloped after the initial high intensity exposure.
  • photographic elements containing the emulsions of the invention can be developed and fixed in aqueous chemical developing-out and fixing solutions after the initial exposure forming the latent image, or after the above-described photodevelopment.
  • the substituted thiourea halogen acceptors described above have particular utility with respect to this feature as they can be chemically developed and fixed before or after photodevelopment to make archival-quality records.
  • Example 1 A gelatino-silver chlorobromoiodide direct-print emulsion having high internal sensitivity and low surface sensitivity was prepared by the method described in Davey at al., US. Patent 2,592,250. To separate portions of this emulsion were added various combinations of the invention and thereafter coated on a photographic paper support at a coverage of mg. of silver per square foot and 280 mg. of gelatin per square foot.
  • the feature addenda of the invention were added as solutions, for example, a methanol solution of the mercaptan was added to the emulsion with rapid stirring followed by the addition of a water solution of potassium iodide to yield 2 mole percent of iodide based on the silver halide followed by the addition of a water solution of the copper salts with rapid stirring just prior to coating on the paper support.
  • a methanol solution of the mercaptan was added to the emulsion with rapid stirring followed by the addition of a water solution of potassium iodide to yield 2 mole percent of iodide based on the silver halide followed by the addition of a water solution of the copper salts with rapid stirring just prior to coating on the paper support.
  • the exposed samples were thereafter photodeveloped by exposure to approximately 1000-foot candles of white fluorescent light for approximately 5 seconds.
  • the exposed and photodeveloped samples produced substantially higher densities in the initially exposed areas and lower densities in the unexposed background areas than produced in control coatings containing the copper sulfate alone, the mercaptan alone, or
  • Example 2 Several portions of an emulsion of the type described in Example 1 were tested containing varying amounts of a combination of a mercaptan and a copper salt, more specifically, concentrations of 1-phenyl-5-mercaptotetrazole ranging from 3.4 to 13.4 grams per mole of silver halide in combination with cupric sulfate pentahydrate at concentrations ranging from 9.4 to 38.4 grams per mole of silver halide in the emulsion were tested. When exposed and photodeveloped as described in Example 1, excellent contrast, high density in the initially-exposed areas, and low density in the background areas were obtained in all cases.
  • Example 3 A light-developable, direct-print, light sensitive gelatino-silver chlorobromoiodide emulsion having high internal sensitivity and low surface sensitivity was prepared mercaptan per mole of silver. An emulsion portion without the heterocyclic mercaptan was also prepared as a control for comparative purposes. The emulsions were coated on a photographic paper support at coverages of 111 mg. of silver and 254 mg. of gelatin per square foot.
  • the exposed samples were than photodeveloped by exposure to 2000 foot-candles for 30 minutes through a step tablet containing steps with a successively increasing density of approximately 0.5 log E.
  • the first step (clear, containing no density) allowed 60,000 foot-candle minutes of light to strike the test samples in that area
  • the second step (0.5 log E density) modulated this exposure so that the effective exposure was only 16,900 foot-candle minutes, etc.
  • the densities obtained were read on each step for the image and background areas through a Wratten No. 15 filter on a Kodak curve-tracing densitometer. All of the density measurements were made under safelight so that the densities did not change under these measurements. Summarized above in Table I are the differences in densities between the image and background areas (AD).
  • the coatings with the greatest stability are the coatings which retain the highest degree of differentiation (AD) over the longest exposure value range.
  • the cupric salt and the heterocyclic mercaptan and/or the aromatic mercaptan, as Well as the iodide salt cooperate in internal image silver halide emulsions to give useful direct-print coatings.
  • the high AD values for the emulsions containing the addenda of the invention indicate the substantial differences between background and image densities of such emulsions resulting on high intensity exposure and photodevelopment in the usual manner.
  • the high AD values at the left portion of the table are indicative of the resistance to fading that characterizes direct-print products prepared with the emulsions of the invention.
  • Example 4 A gelatino-silver chlorobromide emulsion having high internal sensitivity and low surface sensitivity was prepared by the method described in Davey et al., US. Patent 2,592,250. The prepared emulsion was split into several portions, each portion containing 0.01 mole of thiosalicylic acid, 0.10 mole of cupric sulfate, 0.02 mole of potassium iodide, and 0.03 mole of a heterocyclic photodeveloped samples had substantially higher densities in the image areas than in the background areas and relatively high speeds. Table II below sets out the relative speeds for the various test coatings.
  • triazolehemihydrazine salt 600 2-mercapto-5-methyl-4H,1,3,4-thiadiazine 300 2-mercapto-5-phenyl-4H,1,3,4-thiadiazine S-p-chlorophenyl 2 mercapto-4H,1,3,4-thiadiazine 150
  • Tri-thiocyanuric acid 300 2-mercapto-S-phenylbenzoxazole 1800 l-octyl 1,2,3,6 tetrahydro-l,3,5-triazine-4- thiol 1200 3,5 dimercapto 3,5 diphenyldihydro-1,2-
  • Example 5 The photographic coatings described in Example 1 were exposed initially on a Consolidated Electrodynamics Corp. Model 5-123 oscillograph which has a light source of ultraviolet light. The exposed samples were photodeveloped for three seconds using an exposure of approximately 1000 footcandles of a white fluorescent light with the back of the paper held in contact with the heat platen of the oscillograph which was maintained at about 107 C. The samples exhibited higher density differential between the image and background areas than did the control coating which was exposed and photodeveloped under the same exposure conditions but in the absence of heat.
  • Example 6 The coatings described in Example 4 were exposed on a Consolidated Electrodynamics Corp. Model 5-123 oscillograph and photodeveloped in the presence of heat for two seconds with a 1000 foot-candle of a white fluorescent light source, and the temperature of the heat platen maintained at about 107 C.
  • the exposed samples which were photodeveloped in the presence of heat exhibited a higher density and an improved image differentiation over the control sample of Example 4 which was exposed and photodeveloped under the same exposure conditions but in the absence of heat.
  • Example 7 A light-devolpable, direct-print, light-sensitive gelatino-silver chlorob-romoiodide emulsion (95% bromide, 3% iodide, 2% chloride) having high internal sensitivity and low surface sensitivity was prepared by slowly adding silver nitrate to an aqueous gelatin solution containing a stoichiometric excess of potassium iodide, potassium bromide and potassium chloride to provide a large-grain emulsion. The emulsion was washed with water to remove water-soluble salts. To separate portions of this emulsion were added various addenda of the invention and thereafter coated on a photographic paper support at a coverage of 110 mg. of silver per square foot and 255 mg.
  • Example 8 A gelatino-silver chlorobromide direct-print emulsion bromide, 5% chloride) having high internal sensitivity and low surface sensitivity was prepared by slowly adding silver nitrate to an aqueous gelatin solution containing a stoichiometric excess of potassium chloride and potassium bromide to provide a large-grain emulsion.- The emulsion was washed with water to remove watersoluble salts. To separate portions of this emulsion were added typical feature addenda of the invention and thereafter coated on photographic paper supports at coverages of mg. of silver per square foot and 255 mg. of gelatin per square foot. Summarized below in Table IV are the addenda utilized in the prepared emulsions. In Table IV:
  • Compound I 1-n-butyl-1,2,5,6 tetrahydro-l,3,5 triazine-4-thiol
  • Compound II potassium iodide TABLE Iv Coating No. Feature addenda and concentration in mole percent based on the silver halide 1 Control.
  • each of the emulsions contained 1.66 g. of potassium iodide per mole of silver halide and a sulfur-containing compound as indicated in Tables VI and VII in terms based on the silver halide.
  • the coatings described in Table VI were stored for 3 days at 120 F. and 35% relative humidity, and then exposed to a 100 microsecond flash on an Edgerton, Germeshausen and Grier Mark VI sensitometcr containing a xenon light source through a 0.15 log E neutral density step tablet.
  • the present substituted thioureas as defined hereinabove have particular utility as they can be utilized as halogen acceptors in direct-print emulsions that can be effectively chemically developed and fixed before or after photodevelopment to make archival-quality records.
  • Thiourea and thiosemicarbazide are not as useful.
  • a light-developable, direct-print, radiation-sensitive emulsion comprising silver halide grains, a predominant amount of said radiation sensitivity being internal to said grains, a mercaptan halogen acceptor selected from the group consisting of a compound having at least one mercapto group attached to an aromatic nucleus and a compound having at least one mercapto group attached to a heterocyclic nucleus having at least one heteronitrogen atom, and a cupric salt.
  • a light-developable, direct-print, radiation-sensitive emulsion comprising silver halide grains, a predominant amount of said radiation sensitivity being internal to said grains, a mercaptan halogen acceptor having at least one mercapto group attached to a heterocyclic nucleus having at least one heteronitrogen atom, and a cupric salt.
  • a light-developable, direct-print, radiation-sensitive emulsion comprising silver halide grains, a predominant amount of said radiation sensitivity being internal to said grains, a mercaptan halogen acceptor having at least one mercapto group attached to an aryl nucleus, and a cupric salt.
  • a light-developable, direct-print, radiation-sensitive emulsion comprising silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, a hydrophilic colloid, about .1 to mole percent based on said silver halide of a mercaptan halogen acceptor having at least one mercapto group attached to a heterocyclic nucleus having at least one hetero-nitrogen atom, about .5 to 120 mole percent based on said silver halide of a cupric salt, and about .1 to 50 mole percent based on said silver halide of a mercaptan halogen acceptor having at least one mercapto group attached to an aryl nucleus.
  • a light-developable, direct-print, radiation-sensitive emulsion comprising silver halide grains having an average size of about .1 to microns, a predominant amount of the said radiation sensitivity being internal to said grains, a hydrophilic colloid, about .1 to 50 mole percent based on said silver halide of a mercaptan halogen acceptor having at least one mercapto group attached to a heterocyclic nucleus having at least one hetero-nitrogen atom, about .5 to 120 mole percent based on said silver halide of a cupric salt, about .1 to 50 mole percent based on said silver halide of a rnercaptan halogen acceptor having at least one mercapto group attached to an'aryl radical, and about .1 to 50 mole percent based on said silver halide of a Water-soluble iodide.
  • a light-developable, direct-print, radiation-sensitive gelatino-silver halide emulsion comprising silver halide grains having an average size of about .1 .to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .5 to 120 mole percent based on said silver halide of a Water-soluble cupric salt, about .1 to 50 mole percent based on said silver halide of a heterocyclic mercaptan halogen acceptor having a mercapto group attached to a cyclic nucleus selected from the group consisting of a triazine nucleus and a tetrazole nucleus, and about .1 to 50 mole percent based on said silver halide of a Water-soluble iodide.
  • a light-developable, direct-print, radiation-sensitive gelatino-silver halide emulsion comprising silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .5 to 120 mole percent based on said sliver halide of a Water-soluble cupric salt, about .1 to 50 mole percent based on said silver halide of an aromatic mercaptan halogen acceptor having a mercapto group attached to a benzene nucleus, and about .1 to 50 mole percent based on said silver halide of a Water-soluble iodide.
  • a light-developable, direct-print, radiation-sensitive gelatino-silver halide emulsion comprising silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .5 to 120 mole percent based on said silver halide of a water-soluble cupric salt, about .1 to 50 mole percent based on said silver halide of thiosalicylic acid, and about .1 to 50 mole percent based on said silver halide of a water-soluble iodide.
  • a light-developable, direct-print, radiation-sensitive gelatino-silver halide emulsion comprising silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .1 to 50 mole percent based on said silver halide of a Water-soluble cupric salt, about .1 to 50 mole percent based on said silver halide of 1-phenyl-5-mercaptotetrazole, and about .1 to 50 mole percent based on said silver halide of a Water-soluble iodide.
  • a light-developable, direct-print, radiation-sensitive gelatino-silver halide emulsion comprising silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .1 to 50 mole percent based on said sliver halide of a Water-soluble cupric salt, about .1 to 50 mole percent based on said silver halide of 1 n butyl l,2,3,6-tetrahydro-1,3,5-triazine-4-thiol, and about .1 to 50 mole percent based on said silver halide of a water-soluble iodide.
  • a light-developable, direct-print, radiation-sensitive gelatino-silver halide emulsion comprising silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about 1 to 20 mole percent based on said silver halide of cupric sulfate, about 1 to 10 mole percent based on said silver halide of thiosalicyclic acid, about 1 to 10 mole percent based on said silver halide of 1 n butyl 1,2,3,6-tetrahydro-1,3,5-triazine-4-thiol, and about 1 to 10 mole percent based on said silver halide of potassium iodide.
  • a light-developable, direct-print, radiation-sensitive gelatino-silver halide emulsion comprising silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .5 to mole percent based on said silver halide of a Water-soluble cupric salt, about .1 to 50 mole percent based on said silver halide of an aromatic mercaptain halogen acceptor having at least one mercapto group attached to a benzene nucleus, about .1 to 50 mole percent based on said silver halide of a mercaptan halogen acceptor having at least one mercapto group attached to a heterocyclic nucleus having 1 to 4 hetero-nitrogen atoms, and about .1 to 50 mole percent based on said silver halide of a water-soluble iodide salt selected from the group consisting of ammonium, calcium, lithium, magnesium, potassium and sodium
  • R and R are each selected from the group consisting of (1) a hydrogen atom, (2) an alkyl group, (3) an acyl group, and (4) an aryl group; and (B) X represents the necessary atoms with the s H No-N- moiety to make a heterocyclic nucleus selected from the group consisting of 1) a triasole-thiol, (2) an imidazole-thione,
  • a light-developable, direct-print, radiationsensitive emulsion comprising gelatin, silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .1 to 100 mole percent based on said silver halide of water-soluble iodide, and about .1 to 50 mole percent of tetramethylthiourea based on said silver halide.
  • a light-developable, direct-print, radiation-sensitive emulsion comprising gelatin, silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .1 to 100 mole percent based on said silver halide of a water-soluble iodide, and about .1 to 50 mole percent of Z-mercaptoimidazole based on said silver halide.
  • a light-developable, direct-print, radiation-sensitive emulsion comprising gelatin, silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .1 to 100 mole percent based on said silver halide of a water-soluble iodide, and about .1 to 50 mole percent of trimethylthiourea based on said silver halide.
  • a light-developable, direct-print, radiation-sensitive emulsion comprising gelatin, silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .1 to 100 mole percent based on said silver halide of a water-soluble iodide, and about .1 to 50 mole percent of l-(ortho-methoxyphenyl)-2-thiourea based on said silver halide.
  • a light-developable, direct-print, radiation-sensitive emulsion comprising gelatin, silver halide grains having an average size of about .1 to 10 microns, a predominant amount of the said radiation sensitivity being internal to said grains, about .1 to 100 mole percent based on said silver halide of a water-soluble iodide, and about .1 to 50 mole percent of l-n-butyl-1,2,3,6-tetrahydro-1,3,5-triazine- 4-thiol based on said silver halide.
  • a light-developable, direct-print, radiation-sensitive gelatino-silver halide emulsion comprising silver halide grains having an average size of about .1 to 10 microns,
  • R and R are each selected from the group consisting of (1) a hydrogen atom,
  • R and R are each selected from the group consisting of (1) a hydrogen atom,
  • R R R and R being other than a hydrogen atom; and about .1 to mole percent based on said silver halide of a water-soluble halide salt selected from the group consisting of ammonium, calcium, lithium, magnesium, potassium and sodium bromide, chloride and iodide.

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US303146A 1961-08-01 1963-08-19 Photographic silver halide emulsions Expired - Lifetime US3241971A (en)

Priority Applications (8)

Application Number Priority Date Filing Date Title
BE620828D BE620828A (de) 1961-08-01
DEE23040A DE1170778B (de) 1961-08-01 1962-06-15 Silberhalogenid-Auskopieremulsion mit einem Gehalt an einem Schwermetallsalz
FR905159A FR1329911A (fr) 1961-08-01 1962-07-26 émulsion photographique aux halogénures d'argent à noircissement direct et produit photographique la contenant
GB28746/62A GB976261A (en) 1961-08-01 1962-07-26 Direct print photographic materials
US303146A US3241971A (en) 1961-08-01 1963-08-19 Photographic silver halide emulsions
DEE27589A DE1278237B (de) 1961-08-01 1964-08-12 Lichtentwickelbare, direkt kopierende Silberhalogenidemulsion
FR985230A FR1404277A (fr) 1961-08-01 1964-08-14 émulsions photographiques aux halogénures d'argent développables par exposition à la lumière
BE651931A BE651931A (de) 1961-08-01 1964-08-17

Applications Claiming Priority (3)

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US12837861A 1961-08-01 1961-08-01
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US3352672A (en) * 1964-04-09 1967-11-14 Eastman Kodak Co Photographic direct positive color process and element
US3418122A (en) * 1965-08-23 1968-12-24 Eastman Kodak Co Photodevelopment of silver halide print-out material
US3447927A (en) * 1965-07-13 1969-06-03 Eastman Kodak Co Print-out silver halide emulsions capable of being chemically developed and/or photodeveloped
US3507656A (en) * 1966-01-10 1970-04-21 Du Pont Radiation-sensitive emulsions
US3652287A (en) * 1969-10-10 1972-03-28 Du Pont Direct-writing emulsions prepared by adding after silver halide precipitation in the presence of lead, insolubilizing acid anions, and heterocyclic nitrogen compounds
US3660100A (en) * 1967-05-25 1972-05-02 Xerox Corp Direct-print light-developable emulsion
US3852071A (en) * 1971-11-09 1974-12-03 Fuji Photo Film Co Ltd Process of producing positive images
US4038081A (en) * 1975-02-28 1977-07-26 Konishiroku Photo Industry Co., Ltd. Development method
US4088494A (en) * 1974-09-20 1978-05-09 Fuji Photo Film Co., Ltd. Sulfur-sensitized AgX emulsion containing cubic AgX grains and a mercaptan sensitizer
DE3006342A1 (de) * 1979-02-21 1980-09-18 Oriental Photo Ind Co Ltd Verfahren zur herstellung einer photoentwickelbaren, photographischen silberhalogenidemulsion
US4252895A (en) * 1978-08-07 1981-02-24 Oriental Photo Industrial Co., Ltd. Photodevelopable silver halide photosensitive material
US4665017A (en) * 1983-12-08 1987-05-12 Fuji Photo Film Co., Ltd. Process for preparing silver halide emulsion and silver halide photographic light-sensitive material
US20230399942A1 (en) * 2022-06-08 2023-12-14 Saudi Arabian Oil Company Fluorescent dye oil tracer compositions
US11999855B2 (en) 2021-12-13 2024-06-04 Saudi Arabian Oil Company Fluorescent dye molecules having hydrophilicity and hydrophobicity for tracer applications

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US3367780A (en) * 1963-08-19 1968-02-06 Eastman Kodak Co Direct-print photographic silver halide emulsions
CA731575A (en) * 1964-06-01 1966-04-05 A. Sprung Joseph Light-sensitive silver halide print-out emulsions
JPS5952821B2 (ja) * 1980-02-08 1984-12-21 富士写真フイルム株式会社 リス型ハロゲン化銀写真感光材料

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US3017270A (en) * 1958-03-31 1962-01-16 Eastman Kodak Co Photographic silver halide diffusion transfer process
US3033678A (en) * 1960-10-11 1962-05-08 Du Pont Radiation-sensitive silver halide emulsions and elements, and processes of developing the same
US3033682A (en) * 1959-05-22 1962-05-08 Du Pont Radiation-sensitive emulsions, elements, and processes for making same
US3109737A (en) * 1958-05-26 1963-11-05 Honeywell Regulator Co Silver halide print-out emulsions combining cadmium iodide

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US1995444A (en) * 1931-09-03 1935-03-26 Ilford Ltd Photographic printing emulsion
US2401051A (en) * 1939-09-26 1946-05-28 Photo Positive Corp Photographic emulsions and methods
US3017270A (en) * 1958-03-31 1962-01-16 Eastman Kodak Co Photographic silver halide diffusion transfer process
US3109737A (en) * 1958-05-26 1963-11-05 Honeywell Regulator Co Silver halide print-out emulsions combining cadmium iodide
US3123474A (en) * 1958-05-26 1964-03-03 byrne
US3033682A (en) * 1959-05-22 1962-05-08 Du Pont Radiation-sensitive emulsions, elements, and processes for making same
US3033678A (en) * 1960-10-11 1962-05-08 Du Pont Radiation-sensitive silver halide emulsions and elements, and processes of developing the same

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3352672A (en) * 1964-04-09 1967-11-14 Eastman Kodak Co Photographic direct positive color process and element
US3447927A (en) * 1965-07-13 1969-06-03 Eastman Kodak Co Print-out silver halide emulsions capable of being chemically developed and/or photodeveloped
US3418122A (en) * 1965-08-23 1968-12-24 Eastman Kodak Co Photodevelopment of silver halide print-out material
US3507656A (en) * 1966-01-10 1970-04-21 Du Pont Radiation-sensitive emulsions
US3660100A (en) * 1967-05-25 1972-05-02 Xerox Corp Direct-print light-developable emulsion
US3652287A (en) * 1969-10-10 1972-03-28 Du Pont Direct-writing emulsions prepared by adding after silver halide precipitation in the presence of lead, insolubilizing acid anions, and heterocyclic nitrogen compounds
US3852071A (en) * 1971-11-09 1974-12-03 Fuji Photo Film Co Ltd Process of producing positive images
US4088494A (en) * 1974-09-20 1978-05-09 Fuji Photo Film Co., Ltd. Sulfur-sensitized AgX emulsion containing cubic AgX grains and a mercaptan sensitizer
US4038081A (en) * 1975-02-28 1977-07-26 Konishiroku Photo Industry Co., Ltd. Development method
US4252895A (en) * 1978-08-07 1981-02-24 Oriental Photo Industrial Co., Ltd. Photodevelopable silver halide photosensitive material
DE3006342A1 (de) * 1979-02-21 1980-09-18 Oriental Photo Ind Co Ltd Verfahren zur herstellung einer photoentwickelbaren, photographischen silberhalogenidemulsion
US4665017A (en) * 1983-12-08 1987-05-12 Fuji Photo Film Co., Ltd. Process for preparing silver halide emulsion and silver halide photographic light-sensitive material
US11999855B2 (en) 2021-12-13 2024-06-04 Saudi Arabian Oil Company Fluorescent dye molecules having hydrophilicity and hydrophobicity for tracer applications
US20230399942A1 (en) * 2022-06-08 2023-12-14 Saudi Arabian Oil Company Fluorescent dye oil tracer compositions

Also Published As

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DE1170778B (de) 1964-05-21
BE620828A (de)
DE1278237B (de) 1968-09-19
BE651931A (de) 1964-12-16
GB976261A (en) 1964-11-25

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