US3362907A - Liquid developer with sharp cut-off response - Google Patents

Liquid developer with sharp cut-off response Download PDF

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Publication number
US3362907A
US3362907A US436552A US43655265A US3362907A US 3362907 A US3362907 A US 3362907A US 436552 A US436552 A US 436552A US 43655265 A US43655265 A US 43655265A US 3362907 A US3362907 A US 3362907A
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toner
negative
sensitizing agent
charge
toner particles
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Matkan Josef
William H Lowe
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Research Laboratories of Australia Pty Ltd
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Research Laboratories of Australia Pty Ltd
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G9/00Developers
    • G03G9/08Developers with toner particles
    • G03G9/12Developers with toner particles in liquid developer mixtures
    • G03G9/135Developers with toner particles in liquid developer mixtures characterised by stabiliser or charge-controlling agents
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G13/00Electrographic processes using a charge pattern
    • G03G13/06Developing
    • G03G13/10Developing using a liquid developer, e.g. liquid suspension

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  • ABSTRACT OF THE DKSCLOSURE 'Superior response for image development in electrostatic printing, using liquid developers, is achieved by dissolving in the carrier liquid an oil, such as a mineral oil, itself containing additions, inclusive of an oxidation inhibitor and a detergent-dispersant.
  • an oil such as a mineral oil, itself containing additions, inclusive of an oxidation inhibitor and a detergent-dispersant.
  • This invention relates to electrophotography and more particularly to improved methods of and means for rendering visible in the reverse sense latent images formed by negative electrostatic charges on electrophotographic and on insulating surfaces such as are known in electrostatic printing.
  • a relatively conductive backing member such as metal or paper sheet having deposited thereon a photoconductive material such as for instance vitreous selenium or an organic photoconductor or a particulate photoconductor such as zinc oxide in a resin binder commonly known as an electrophotographic or Electrofax layer is first subjected to a corona discharge whereby a uniform electrostatic charge is deposited on to the surface of the photoconductive layer. The charged surface is then exposed to a radiation pattern whereby the irradiated areas become discharged in accordance with the intensity of radiation whereas the shielded areas remain charged and thus form a latent electrostatic image.
  • a photoconductive material such as for instance vitreous selenium or an organic photoconductor or a particulate photoconductor such as zinc oxide in a resin binder commonly known as an electrophotographic or Electrofax layer is first subjected to a corona discharge whereby a uniform electrostatic charge is deposited on to the surface of the photoconductive layer. The charged surface is then exposed to a radiation pattern
  • Such latent image is then rendered visible by applying thereto a dry powder developer or toner material suspended in an insulating carrier liquid in order that such toner may be attracted and held electrostatically to the charged areas.
  • the thus developed image may be fixed to the surface of the photoconductor or transferred to another surface and fixed thereon.
  • a liquid developer by suspending a particulate pigment wetted with an oil or resin in an insulating carrier liquid to the form the toner material to be deposited electrostatically.
  • the polarity of the toner material with respect to the latent image to be developed is determined by the nature of the materials selected or by so-called polarity control agents as described for instance in US. Patents No. 2,907,674 of K. A. Metcalfe et al., and 3,076,722 of H. G. Greig.
  • a positive developer contains toner material which can be attracted by negative charges and therefore it can be used for instance to develop a latent image formed by negative electrostatic charges. on a charged and exposed zinc oxide coated electrophotographic paper, the resulting image being a facsimile reproduction of the original radiation pattern.
  • a negative developer contains toner material which can be attracted by positive charges or repelled by negative charges. Electrophotographic coatings containing zinc oxide can be charged only negatively with the result that the latent image formed by exposure is negative in polarity.
  • the negative developer can be app-lied to a zinc oxide layer containing a negative latent image to produce a reversal reproduction of the original radiation pattern by toner repulsion from the image areas holding negative charges and by deposition on to the exposed areas in accordance with the charge level differences existing on the surface that is to say the rate of deposition of such negative toner material is inversely proportional to the magnitude of the negative surface charges retained on the surface.
  • One of the problems in producing in the reverse sense high density images on a background free of any toner deposit employing negative liquid developers is that the toner material is sensitive enough to detect even minute residual charges or charge level differences existing on the exposed surface and consequently such minute charges or charge level dilferences result in deposition of toner material according to their intensity and thus give rise to the formation of undesirable background staining and an overall reduction in contrast.
  • minute charges and charge level differences are known to exist in particular on zinc oxide containing layers and they can be caused by uneven charging, inadequate exposure, areas of surface breakdown, coating artifacts and the like.
  • An object of the present invention is to provide a liquid developer for developing in the reverse sense latent images formed on a surface by negative electrostatic charges which developer contains negative toner material capable of depositing only on to such areas where the maximum magnitude of the original negative charges contained on the surface has been reduced by exposure by at least a predetermined percentage.
  • a further object is to provide an electrostatic liquid developer which is capable of forming high density image deposits without developing undesired charge reductions caused by processing defects.
  • a still further object is to provide an electrostatic liquid developer which is capable of producing high con trast positive reproductions from low density negatives.
  • a developer in accordance with this invention consists of an insulating carrier liquid having an electrical volume resistivity in excess of 10 ohm cm. and a dielectric constant of less than 3, toner particles of limited sensitivity suspended in said carrier liquid which particles may comprise pigment particles or aggregates of pigment particles containing thereon an adsorbed layer of a wetting substance and a sensitizing agent dissolved in said carrier liquid capable of affecting the sensitivity of said toner particles without being capable of depositing electrostatically.
  • toner particles are termed to be of limited sensitivity in that when suspended in the desired carrier liquid in absence of the sensitizing agent they are of insulficient sensitivity to develop to any appreciable density the unexposed areas containing a residual negative charge or the exposed areas when acting as negative toners.
  • Positive toner particles deposit along the field lines towards the negative charge and their rate of deposition is proportional to the magnitude of the negative charges or to the density of the flux issuing from the charge holding areas whereas negative toner particles deposit along the field lines towards the point of re-entry and their rate of deposition is inversely proportional to the magnitude of the residual negative electrostatic charges existing in the exposed or partly exposed areas.
  • FIGS. 1 and 2 show residual surface charges and corresponding charge diflerences that is percentages of charge reduction on the surface of an exposed electrophotographic layer
  • FIGS. 3 and 4 show toner deposition in accordance with this invention on to the surfaces shown in FIGS.
  • FIG. 5 is a diagram showing curves of toner characteristics in accordance with the prior art and in accordance with this invention.
  • an electrophotographic printing element such as a zinc oxide coated paper is shown here the surface 1 of which has been charged to a negative potential of magnitude 2 and subsequently exposed to a light pattern of varying intensity whereby the initial charge 2 has been reduced to various steps 3 extending to a fully exposed area 4 with complete charge removal.
  • Positive toner material as known in the prior art would deposit in proportion to the charge levels V.
  • FIG. 2 the various charge levels of FIG. 1 are shown as charge level differences that is charge reduction percentages in relation to the initial highest charge 2 of FIG. 1. It will be noted that the highest percentage of charge reduction 7 is in the portion corresponding to the fully exposed area 4 of FIG. 1, no charge reduction exists in portion 6 corresponding to the area of FIG. 1 where the initial charge 2 has been fully retained due to no illumination and intermediate step 5 corresponds to the partially exposed step 3 of FIG. 1. Toner deposition from a negative liquid developer as shown in the prior art would be proportional to the percentage of charge reduction DV.
  • FIG. 3 is shown toner deposition according to the charge reductions of FIG. 2 using a negative liquid developer in accordance with this invention.
  • DV charge reduction percentage
  • Such response cut-off at a desired charge reduction percentage is attainable in accordance with this invention by employing the aforementioned sensitizing agent which agent in a developer system containing toner material of limited sensitivity may sensitize each toner ma terial and may confer to the developer system a response cutoff at any desired charge reduction percentage depending on the quantity and type of such sensitizing agent employed.
  • FIG. 4 is shown toner deposition as in FIG. 3 except that here less sensitizing agent was imployed and consequently the sensitivity of the toner material initially of limited sensitivity has been increased to a lesser degree than of that in FIG. 3. As a result the cut-off of the toner in FIG. 4
  • the liquid developer according to this invention contains toner particles of limited sensitivity suspended in a carrier liquid and such toner particles can be of either polarity initially irrespective of their required final negative polarity because their sensitivity is so limited that their capability of depositing in absence of the sensitizing agent is negligible.
  • the sensitizing agent is a substance which is completely soluble in the carrier liquid in the form of macromolecules or molecular chains or micelles.
  • each macromolecule or micelle When dissolved in the carrier liquid each macromolecule or micelle carries a small positive charge sufiicient in magnitude to create an environment of positive polarity around the toner particles in suspension but not sufficient in magnitude to be attracted by and deposited on to the negatively charged areas on the image bearing surface.
  • the toner particles in the positive environment created by the sensitizing agent assume a negative polarity relative thereto and are thus urged by the sensitizing agent to deposit as apparently negatively charged particles on to the image bearing surface in areas where the negative surface charge has been reduced by at least a certain percentage.
  • the magnitude of the apparent negative charge acquired by the toner particles depends on a particular system on the type of the sensitizing agent and is proportional to the concentration thereof in relation to the toner particle concentration. Consequently, the capability of the thus sensitized toner particles to deposit is proportional to their aforesaid magnitude of apparent negative charge acquired relative to the sensitizing agent and this magnitude of charge determines the percentage of negative charge reduction required on the surface below which no toner deposition will take place that is to say where the cut-off occurs.
  • the proportioning of the sensitizing agent for obtaining a particular cut-off may vary from system to system depending on the mobility of the toner particles in the carrier liquid and on the type of sensitizing agent used. As will be shown in the examples following this disclosure one type of sensitizing agent may be more effective than another type in a given developer system. In each case however the quantity of the sensitizing agent present in the system is relatively small because a very small quantity of the agent is already sufficient to create a positive environment around the toner particles and variations of this small quantity can be made to adjust the toner sensitivity to the required cut-off. In any case the quantity of the sensitizing agent employed must be insufficient to lower the volume resistivity of the carrier liquid in order that the electrostatic image contained on the surface to be developed may not be destroyed.
  • the sensitizing agent must not have the tendency to adsorb preferentially on to the toner particles containing the absorbed layer of the wetting substance because a toner particle having the sensitizing agent adsorbed there on to any substantial degree would assume the positive polarity thereof and thus function as a positive developer which is contrary to the provisions of this invention.
  • the sensitizing agent can be incorporated either by first dissolving it in the carrier liquid and then suspending the toner particles in the solution or by dissolving it in the carrier liquid containing the toner particles in suspension or by mixing it with toner material comprising pigment particles milled with a wetting substance and then suspending such mixture in the carrier liquid.
  • the mineral oil as the carrier of the said additives is per se essential in the sensitizing agent in that when dissolved in the carrier liquid in the form of macromolecules of molecular chains or micelles each of such having attached thereto the polar/non-polar molecules of the additives, it effects an even distribution in the carrier liquid of such molecular chains or micelles forming the positive environment around the suspended toner particles.
  • the positive environment created in the aforesaid rnanner is due to the orientation of the polar/nonpolar molecules of the additives attached to the macromolecules or molecular chains or micelles .of the mineral oil dissolved in the carrier liquid of high volume resistivity.
  • Curves 9 and 10 represent the density of images obtained by deposition of prior art negative toners, and it will be noted that the density is proportional to the percentage of charge reduction, curve 9 representing a toner with higher rate of deposition than the toner represented by curve 10.
  • Curves 13 and 14 represent the density obtained by deposition from the liquid developer in accordance with this invention comprising a liquid carrier with suspended toner particles of limited sensitivity in absence of the sensitizing agent. Deposition of toner represented by curve 13 commences only at a very high percentage of charge reduction and the density is negligible. The density of deposition of toner represented by curve 14 is somewhat higher but this toner is even less sensitive than the toner of curve 13.
  • Curve 12 represents the characteristics of a developer prepared by adding a proportion of the sensitizing agent to the toner suspension of curve 13. It will be noted that the sensitivity of the toner of curve 12 has been increased over that of curve 13 in that deposition takes place at a much lower percentage of charge reduction, and the density of deposit is now high. Upon further addition of sensitizing agent the toner of curve 11 was obtained, and it will be noted that the sensitivity has been further increased. Points DV and DV on curves 11 and 12, respectively, correspond to the cut-off points in FIGS. .2, 3 and 4.
  • the density of toner deposit according to curves 11 and 12 is not proportional to DV to the extent as that .of curves 9 and 10 in that deposition of toner represented by curves 11 and 12 is relatively uniform for all values of DV above the cut-ofi point that is above the critical minimum percentage of charge reduction.
  • Such uniform toner deposition in accordance with this invention is also shown in FIGS, 3 and 4, and it can be explained by the nature of these developers wherein the toner particles having been sensitized by the sensitizing agent only to a restricted extent in order to avoid deposition below a certain percentage of charge reduction, the force .of attraction caused by the field in the relevant areas has been also restricted to such extent that irrespective of the magnitude of the charge reduction above the critical value, only a toner deposit of a certain thickness can be held in position and further toner particles which move to areas where the charges have been further reduced can not be held in position at such areas due to the aforementioned restricted force of attraction, particularly in view of their relatively greater distance from the surface than that of the toner particles already deposited.
  • the toner particles comprise two or more types of pigments wherein each pigment particle contains an adsorbed layer of one or more types of wetting substances or polarity control agents as known in the prior ing overall sensitivity of the aggregate as a Whole to a negative or positive surface charge becomes limited to the desired degree.
  • the wetting substance referred to in the foregoing which in method one acts as a dispersing aid only whereas in the second method it may also affect the polarity of the toner particles, can be an oil, a resin, a varnish or wax which can be adsorbed on to the particles by milling or other methods of dispersion and which also facilitates the suspension of the toner particles in the carrier liquid.
  • Such wetting substance can be therefore soluble, partially soluble or insoluble in the carrier liquid but it must remain at least in part as a thin coating on the particles suspended in the carrier liquid to form coated toner particles on which such coating cannot become replaced by the sensitizing agent adsorbing from solution in the car rier liquid on to the particles and therefore the wetting substance can also be incompatible with the sensitizing agent in order to prevent its adsorption on to the particles in a quantity sufiicient to confer the polarity characteristics of the sensitizing agent to the coated particles.
  • the proportion in which such wetting substance may be used in relation to the pigment to form the toner particles may be determined by the wetting properties of the particles and by the wetting power of the wetting substance, but in the second method polarity characteristics of both of the particles and of the wetting substances may determine the necessary proportion to attain toner particles of limited sensitivity.
  • the agent governing the response of the toner particles with respect to polarity and degree of response or sensitivity is the sensitizing agent which is not present in the form of a coating on the toner particles but is in a dissolved state in the carrier liquid without lowering the volume resistivity thereof and furthermore such sensitizing agent is opposite in polarity to that which it confers to the toner particles and it does not co-deposit with the toner particles on to the areas to be developed nor does it deposit on to the non-image areas.
  • toner formulations will further illustrate the manner in which liquid developers with varying cut-off response can be prepared in accordance with this invention and it will be realised that this invention is not restricted by the cited materials and combina tions thereof as one skilled in the art of making electrostatic developers can utilise the teachings of this invention to select and proportion other materials in order to obtain liquid developers with cut-off characteristics as may be desirable for particular applications.
  • Example 1 In these examples the cut-off characteristics are expressed as percentages of reduction of the negative charges of maximum magnitude retained on the image bearing surface after exposure to electromagnetic radiation, 100% charge reduction relating to fully exposed and discharged areas.
  • the response cut-01f of this developer is at 80% of charge reduction that is to say at least 80% of the maxi mum magnitude of the negative charge held on the surface in any area is to be removed by exposure before toner deposition can take place.
  • Toner particles of limited negative sensitivity are pre pared here by coating a strongly positive pigment particle with a strongly negative resin as the wetting substance.
  • the toner concentrate is prepared by wetting the pigment.
  • the response cut-off of the developer of Example 1 was raised to by decreasing the quantity of the Mobilgrease No. 5 sensitizing agent to 5 grams.
  • the grease was first dissolved in the carrier liquid in the proportion of 1 gram of the grease to grams of the carrier liquid and then 8 grams of the pigment dispersion were suspended in the solution.
  • Example 3 The response cut-off of this developer is at 90%.
  • the toner particles are of limited negative sensitivity and consist of coated particle aggregates which are prepared as follows:
  • Microlith Bordeaux RT pigment 20 are wetted with the resin Superbeckosol 1352 20 by milling or other methods to form a pigment dispersion.
  • Both the Bordeaux RT and the Green GT pigments contain a coating of Stay-belite Ester l0 resin on the particles.
  • the pigments without such coating are negative but the strongly positive resin converts the Bordeaux pigment to a toner of limited positive sensitivity and it also reduces the negativity of the Green pigment.
  • the two coated pigments form an aggregate in the above proportion, the response of such aggregate is of limited negative sensitivity.
  • the Superbeckosol resin which does not affect the response of the coated particles, has been used as a wetting substance which also prevents due to incompatibility adsorption of the sensitizing agent on to the coated particle aggregates.
  • the above toner concentrate can be dispersed in the proportion ranging from 0.1-10% by weight in a liquid carrier as disclosed in Erample 1 and in addition in Isopar H, mineral spirits, cyclohexane, perchlorethylene and carbon tetrachloride.
  • Example 4 The response cut-off of the developer of Example 3 was reduced to 70% by increasing the quantity of the sensitizing agent Ampol automotive oil 20/20W in the toner concentrate from 5 grams to 15 grams.
  • Example 9 Example The Arnpol automotive oil 20/20W of Example 4 was replaced with Shell X100, SAE 40 rating, automotive oil,
  • Example 6 The 15 grams of the Ampol 20/20W oil of Example 4 were replaced with 7.5 grams of Valvoline Super HPO automotive oil,
  • mineral oil contains 05-15% of oxidation inhibiting additives and 3.0-5.0% of detergent-dispersant additives.
  • the response cut-oil was maintained at 70% despite of halving the quantity of the sensitizing agent in view of the higher concentration of the additives therein.
  • Example 7 The 15 grams of the Ampol 20/20W oil of Example 4 Were replaced with 2 grams of BP Energol HD-S3 Diesel engine oil which mineral oil contains 0.52.0% of oxidation inhibiting additives and -20% of detergent-dispersant additives.
  • Example 8 Toner particles of limited positive sensitivity are prepared hereby coating a negative pigment with a positive resin in the following manner:
  • This toner concentrate was suspended in the carrier liquids of Example 3 in the proportion of 3.5 grams of toner concentrate to 100 grams of the carrier liquid.
  • the carrier liquids containing the toner suspension was then dissolved Paraifin oil as the sensitizing agent Grams Paraflin oil 100 of the oxidation inhibiting additive Zinc alkyl dithiophosphate 1 and of the detergent-dispersant additive Sodium naphtha sulphonate 4 4 grams of this sensitizing agent were then dissolved in the carrier liquids containing 3.5 grams of the toner concentrate and a developer was obtained with a response cut-otf at 80% of charge reduction.
  • Example 9 The parafiin oil of Example 8 was replaced with the sensitizing agent Valvoline Crystal lubricating oil,
  • Example 10 The oxidation inhibiting additive of Example 8 was replaced with phenyl b-naphthylamine.
  • the response cut-off was at 60%.
  • Example 11 The oxidation inhibiting additive of Example 9 was replaced with phenyl-b-naphthylamine.
  • the response cut-off was at 55%.
  • Example 12 The oxidation inhibiting additive of Example 8 was replaced with 2,6-di-tert-butyl-alpha-dimethylamino-para-cresol.
  • Example 13 The detergent-dispersant additive of Example 8 was replaced with Sodium alkyl benzene sulphonate.
  • Example 14 The detergent-dispersant additive of Example 9 was replaced with Sodium alkyl benzene sulphonate.
  • the response cut-off was at 70%.
  • Irgalite Fast Brilliant Blue GLS is a phthalocyanine pigment made by Geigy,
  • Microlith Bordeaux RT and Microlith Green GT are pigments coated with Staybelite Ester 10 resin, made by Ciba,
  • Staybelite Ester 10 is the ester of a hydrogenated rosin made by Hercules Powder Co.
  • Pentacite P-423 is a pentaerythritol resin made by Reichold Chemicals,
  • Superbeckosol 1352 is an oil modified isophthalic alkyd resin made by Reichold Chemicals,
  • Shell X55 is a substantially aliphatic solvent, sp. gr. 0.72, boiling range 58l40 C., KB value 40, made by the Shell Co.
  • Shell X4 is a substantially aliphatic solvent, sp. gr. 0.67, boiling range 5870 C., KB value 30, made by the Shell Co.
  • Shellsol T is an aliphatic hydrocarbon solvent, sp. gr. 0.76, boiling range -'l80207 0, KB value 26, made by the Shell Co.
  • Isopar H is an isoparafiinic hydrocarbon solvent, sp. gr. 0.757, boiling range 3403'80 F., KB value 26, made by Humble Oil and Refining Co.
  • Mobilgrease No. 5 is a wheel bearing grease made by the Vacuum Oil Co.
  • Ampol automative oil SAE raitng 20/20W is made by Ampol Oil, Australia.
  • Shell X SAE rating 40 is made by the Shell Co.
  • Valvoline Super HPO SAE rating 30 is made by Valvoline Oil, Pennsylvania.
  • BP Energol HD-S3 SAE rating 20 is made by BP Australia.
  • Valvoline Crystal is a pure mineral oil made by Valvoline Oil, Pennsylvania.
  • a liquid developer for rendering visible in the reverse sense electrostatic patterns contained on a surface in the form of negative electrostatic charges of varying magnitude which developer consists of a hydrocarbon carrier liquid having a volume resistivity in excess of ohm cm. and a dielectric constant of less than 3 having suspended therein toner particles to be deposited electrostatically and having dissolved therein a sensitizing agent incapable of being deposited electrostatically from said carrier liquid, characterized by said toner particles being substantially insensitive to attraction and repulsion by said electrostatic charges when suspended in said carrier liquid in absence of said sensitizing agent, further characterized by said sensitizing agent dissolved in said carrier liquid creating an environment of positive polarity around said toner particles suspended in said carrier liquid thereby sensitizing and urging said toner particles to be deposited electrostatically and further characterized by said toner particles being sensitized by said sensitizing agent to such degree that toner deposition takes place only onto such areas defined by said electrostatic pattern where the intensity of said negative electrostatic charges has been reduced by exposure to electromagnetic radiation by at least 70%
  • toner particles consists of pigment particles having adsorbed thereon a layer of oleoresinous wetting substance, said wetting substance being selected from the group consisting of pentaerythritol resin, oil modified isophthalic alkyd resin and hydrogenated rosin ester.

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  • Liquid Developers In Electrophotography (AREA)
US436552A 1964-03-06 1965-03-02 Liquid developer with sharp cut-off response Expired - Lifetime US3362907A (en)

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AU41777/64A AU292267B2 (en) 1964-03-06 Liquid developer with sharp cutoff response and method of use thereof

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BE (1) BE660711A (es)
DE (1) DE1497197C3 (es)
FR (1) FR1431978A (es)
GB (1) GB1095504A (es)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3793015A (en) * 1966-02-04 1974-02-19 Agfa Gevaert Nv Dispersion of particles in an organic liquid
US3993483A (en) * 1974-01-22 1976-11-23 Canon Kabushiki Kaisha Liquid developer for electrostatic image
US3997456A (en) * 1972-11-06 1976-12-14 Bell & Howell Company Wide latitude toner
US4055419A (en) * 1974-10-11 1977-10-25 Bell & Howell Company Method of developing electrostatic images using wide latitude toner
US4702985A (en) * 1986-04-28 1987-10-27 E. I. Du Pont De Nemours And Company Aminoalcohols as adjuvant for liquid electrostatic developers
US4977056A (en) * 1987-08-10 1990-12-11 E. I. Du Pont De Nemours And Company Alkylhydroxy benzylpolyamine as adjuvant for electrostatic liquid developers

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA942554A (en) * 1969-07-01 1974-02-26 Alan B. Amidon Imaging systems

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2734865A (en) * 1956-02-14 Stabilized lubricating compositions
US3032432A (en) * 1957-08-05 1962-05-01 Commw Of Australia Controlled tone development for electrophotography
US3053688A (en) * 1959-04-13 1962-09-11 Rca Corp Electrostatic printing

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2734865A (en) * 1956-02-14 Stabilized lubricating compositions
US3032432A (en) * 1957-08-05 1962-05-01 Commw Of Australia Controlled tone development for electrophotography
US3053688A (en) * 1959-04-13 1962-09-11 Rca Corp Electrostatic printing

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3793015A (en) * 1966-02-04 1974-02-19 Agfa Gevaert Nv Dispersion of particles in an organic liquid
US3997456A (en) * 1972-11-06 1976-12-14 Bell & Howell Company Wide latitude toner
US3993483A (en) * 1974-01-22 1976-11-23 Canon Kabushiki Kaisha Liquid developer for electrostatic image
US4055419A (en) * 1974-10-11 1977-10-25 Bell & Howell Company Method of developing electrostatic images using wide latitude toner
US4702985A (en) * 1986-04-28 1987-10-27 E. I. Du Pont De Nemours And Company Aminoalcohols as adjuvant for liquid electrostatic developers
US4977056A (en) * 1987-08-10 1990-12-11 E. I. Du Pont De Nemours And Company Alkylhydroxy benzylpolyamine as adjuvant for electrostatic liquid developers

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GB1095504A (es) 1967-12-20
FR1431978A (fr) 1966-03-18
DE1497197C3 (de) 1978-03-02
DE1497197B2 (de) 1977-06-30
DE1497197A1 (de) 1969-05-08
BE660711A (es) 1965-07-01

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