DE2048549A1 - Photoelectrophoretic mapping process - Google Patents

Description

Patent attorneys Dipl.-Ing. F. Weickmann, 2048-549

Dipl.-Ing. H. We ι c kman n, Dipl.-Phys. Dr. K. Fincke D1PL.-ING. F. A. Weickmann, Dipl.-Chem. B. Huber

8 MUNICH 86, POST BOX 860 820

XHA MÖHLSTRASSE 22, NUMBER 48 3921/22

<983921/22>

XEROX CORPORATION, Rochester, N.Y. H603. V.St.A «,

]? otoelectrophoretic imaging process

The invention relates to photoelectrophoretic imaging s procedure in which a layer of an image suspension electrically photosensitive pigment particles in a carrier liquid between at least two electrodes, one of which is at least partially for electromagnetic Radiation is permeable ·, an electrical PeId and is exposed to image-wise distributed electromagnetic radiation through the permeable electrode «

In the photoelectrophoretic imaging, colored, photosensitive particles are used, which are in a non-conductive Carrier liquid are euspended · This image substance suspension is then placed between at least two electrodes to which a potential difference is connected, and exposed with a photograph. Normally the image suspension is on a transparent, electrical one conductive pad in lorm of a thin film, and the exposure takes place through this base, while a second cylindrical electrode, which is a bias leads, is rolled over the image suspension. Man assumes that the particles are suspended in the carrier liquid receive an initial charge that allows them to be connected to the

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transparent substrate electrode «During exposure, they change their own charge polarity during the charge exchange with the substrate electrode, so that the irradiated particles migrate to the second, roll-shaped image generation electrode and an image is created on both electrodes · Both images are complementary to each other multicolor images are applied · I ¹ Ur monochromatic images is used a light-sensitive particle a single color in the suspension or a plurality of differently colored particle types exist, all of which respond to that used for the irradiation light · a detailed description of the fotoelektrophoretischen imaging can be found in the _O U.S. Patents 3,383,993, 3,384,488, 3,384,565, and 3,384,566

In the case of multicolor imaging, the image suspension contains a number of at least two differently colored, finely divided types of parts in the carrier liquid, each containing an electrically photosensitive pigment, its main light absorption band essentially with its main sensitivity area collapses · The pigment is the primary electrically light-sensitive medium and the primary coloring medium for the respective type of particle · You should have an intensive part of the particles used in the multi-color process pure coloring and are very sensitive to light. If the suspension is exposed to a multicolored picture, it will wander the particles according to the absorbed liohtms * ge to one electrodeο So stay on during irradiation parts of one electrode in an image-wise distribution, while the complementary parts to the other electrode wan * · the "For example, if a mixture becomes cyan-colored, stomach ·" colored and yellow parts exposed to an image, with yellow light falling on the image substance suspension, so

© RIGtNAL INSPECTED H ₀ 1 Ö 9 8 1 B / 1 8 9 β

'! [•! Ψγιψιρη! mmsir

change the cyan and magenta particles, leaving an image of yellow pigment particles. Similarly, differently colored particles upon exposure absorb a multicolored image, the light of their respective complementary color in the image areas. · 'Parts so that they migrate, leaving a full-colored image corresponding to the original image _o

An image forming method of those described above Art works pretty well, but a bigger problem is the background art that resulting from migration and deposition of unwanted pigment particles, to avoid. When coloring «- background drawings have an even more pronounced effect on the image obtained the background drawings aren't that easily noticeable to them however, degrade the overall quality of a color image considerably.

The object of the invention is therefore to provide an elec * - To create trophoretic imaging method that avoids the disadvantages mentioned above and high quality images created without background drawings and with a high contrast value ©

A method of the type mentioned is designed according to the invention to achieve this object in such a way that the Image suspension between one of the electrodes and at least one further electrode, a second electrical one Field is exposed, which is generated with a voltage which is above the öorona threshold value of the image substance suspension lies.

In the forms off suspension, colored photoelectrophoresis * see image particles in a non-conductive carrier liquid

1098 16 / me OR1G.N «. INSPECTED

used. The image suspension is located between see at least two electrodes, one of which is at least partially transparent and an irradiation carried out by means of image-wise distributed activating electromagnetic radiation ,, The picture * - stock suspension can be applied as a layer on the surface of a first transparent electrode be applied in the form of a thin film, and the irradiation takes place through this Electrode through »while it is in contact with a second or image ·· electrode · Before image exposure the image suspension is exposed to an additional electrode to an electric field with a voltage generated above the Oorona threshold value of the image substance suspension is o Daduroh an Oorona discharge current is generated, the the image suspension is divided into two layers, in which the photoelectrophoretic pigment particles ohen in displaced a unipolar state and concentrated on the surface of the first electrode to which the suspension is applied · The effect of the electric field and the current generated by this consists in an electrophoretic deposition of the image particles in the form a uniform film on the respective electrode, resulting in a film made up of two layers » each consisting of unipolar particles and carrier liquid. The particles that migrate due to the action of light in the suspension then respond to the incident radiation in the imaging zone and produce a visible one Image on one or both electrodes »Both images are complementary to each other» The image substance suspension contains intense colored pigment parts that work as a coloring agent and as a light-sensitive material * Other light-sensitive Elements or substances are not required, so that a very favorable image generation process results * The Teilohen speak on lioht in the area of the spec-

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of their main absorption bands, for example this for oyan, magenta and yellow parts, red, green and blue I / ioht. Becomes a certain pigment substance when white light is irradiated, it becomes a corresponding one Create picture «

It has shown that exposure to a corona discharge current is more sufficient Height on the image suspension the background drawings take effect before the image is exposed can be avoided. The effect of the electrical suffering and the corona current generated by it is the radiation-sensitive particles are unipolar before imaging to make and deposit them evenly on the respective electrode, so that background-free images high speed and high quality can be produced. Under the designation "Öorona threshold value potential or voltage "is to be understood as the voltage at which air ionization in the air gap between the plus * liquid film and the respective'electrode surface occurs O

The invention is described below with reference to a device shown in the figure for its implementation.

In the Mgur a continuously working photoelectrophoretic duplicating device is shown, which works with a transparent, injecting electrode 1, an image generation electrode 10 and a Sohiohtteilungselektro "de 20. The transparent electrode 1 consists of a layer of optically transparent glass 2, on which a thin , optically transparent layer 3 of tin oxide is applied. Tin oxide-coated glass of this type is commercially available under the designation "HESA ^H glass

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2-year 5

Surface of the transparent electrode and is applied to this with a Besohickungselement 6, which has a Can be urethane coated cylinder This rotates in the same or the opposite direction as the transparent electrode «) The function of the Beschiokungszylin * · it consists in a thin film of the image material suspension from the supply 7 via the hollow 8 onto the transparent cylinder To transfer electrode »Near this electrode 1 there is a second rotating electrode 10, the more conductive one Core 11 covered with a layer of material 12 is, for example, with polyurethane as a barrier layer for direct current It need not necessarily be provided, but it is preferably used because the This significantly improves the results of the image generation * A detailed description of such a barrier electrode « Materials suitable for this purpose can be found in US Pat. No. 3,383,993.

The image suspension consists of a dispersion in certain way colored and finely divided light-sensitive Particles in a non-conductive carrier liquid, suitable colored photosensitive pigment particles are, for example, in US Patents 3,384,566 and 3,384,565 besohrlebeno a photoelectrophoretic sin color method applied, so it contains a multitude of pigment particles in one Carrier liquid, the pigment content of the particles causes the photosensitivity and the coloring of the parts. In a multicolor process, the suspension contains a number of at least two differently colored types of particles which have properties similar to those of Single-color processes have «First and foremost with the invention Line background notes should be avoided the image generation according to the figure is preferably carried out ao that it takes place on the surface of the electrode, the

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only touches the clear carrier liquid. It SiOH it to the surface of the image-forming electrode ₀ In a multi-color process is the exposure, for example, made with Koda color negative · In another embodiment of the method the image stock suspension can as a layer on the images "generation electrode to be applied with a color negative, as in the US -Patent 3 427 242 is described, whereby the appropriately biased electrodes are additionally provided, it then results in a direct color image generation by migration of the image material to the surface of the transparent cave electrode. This latter method is not preferably used, but shows The versatility of the invention · If desired, a multicolor image corresponding to monochrome imaging can be produced by superimposing color separation negatives, as previously suggested. The binder suspension can also contain a sensitizing and / or binding agent for the pigment particles. The percentage of the pigment material in the carrier liquid is nioht critical, acceptable results with a share of Ca ₀ 2 to about "10 Grew" - possible # pigment material

A receiving sheet 13 is placed between cylinders 1 and 10 Hindu led so that a dye image on him in the Imaging zone can be deposited «. A picture that one opposite to the developed image on the receiving sheet Has a sense of image is displayed on the NESA glass « cylinder generated and removed at the Besehiokungsstelle The Aufohickungsrolle thus causes an application of the forms off suspension and a removal of the remaining image

A third electrode 20 is located near the point of contact between the transparent and imaging electrodes

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provided, which consists of a conductive core 21 and a dielectric layer 22 applied thereon. Any suitable dielectric material can be used for this purpose. Typical dielectric materials are elastomeric materials such as polyurethane elastomer (Disogrin Industries), silicone rubber RTV (General Electric Qo.), Neoprene, an elastomer made from polymers of 2-chlorobutadiene-1,5 »fluoroelastomers such as Fluorosilicone elastomers from Dow Corning and Viton from duPont, natural and vulcanized rubbers, polyvinyl fluoride plastics like Tedlar (duPont) and KYNAR (Pennöalt Corp.), Polyester plastics such as polyurethane (Witoo Go ·), acrylonitrile polymers such as Hylar (B.F · Goodrich) and mixtures and copolymers dieBer fabrics «becomes the film of the image suspension 5 on the surface of the transparent electrode 1 at the solar dividing electrode 20, so is a DC voltage is connected to the latter electrode through the voltage source 25 · The effect of this generated field and Gorona current in the air gap on the image material suspension consists in all light-sensitive Particles of the image suspension on the polarity of the charge roller and also to charge the particles on the surface of the transparent electrode by electrophoretic migration to concentrate · This creates a layer of highly concentrated unipolar pigment particles of the imaging electrode and a relatively clear layer of liquid above it Area of contact between the transparent electrode 1 and the image forming electrode 10 in the image forming zone Once inside, the layer in contact with the potential image carrier surface is free of pigment particles, independent whether the electrode surface is used as the image carrier surface itself or a sheet-like tape is used between the two electrodes · This makes the possibility the contamination of the image carrier surface is kept to a minimum · A device 26 is used to measure the suspension, which

:, 10 9 8 16/1896 originally inspected

between the layer dividing electrode and the transparent one Electrode is led through the door ©. This means that the entire The layer thickness of the suspension is determined and it becomes too strong, suspension layers avoided, the oorona instinct suppress and thus prevent the effect of the Gorona current on the suspension ©

The voltage applied to the solar dividing electrode becomes generally at a value above the Öorona Sohwell value for the air gap between the liquid film 5 and the Roll 20 held © The primary requirement is that a sufficiently strong Goronagleiohstrom is generated, which maoht the (deilchen of the suspension unipolar and the two-layered The tensions used are generally about 1 to 2 microns thick over 2500 ToIt. In the case of layer thicknesses of more than 2 microns, the corona base wave is generally somewhat higher than 3500 volts · In order to achieve the desired effect safely, voltages in the range of oa · 5000 to 8000 volts used. The polarity of the schiohttei " voltage switched on is generally in the same direction kept with the polarity of the imaging electrode

The layered suspension becomes between the transparent and the imaging electrode into the imaging zone brought where an image on the gap between the rollers with a first surface mirror 59 is projected. A electric field is generated in the imaging zone with the Voltage source 35 generates «The NESA glass roller electrode is connected to earth during the entire operation Receiving sheet 13 »which is in the form of a paper tape fed from the supply roll 36 between the two electrodes passed through and then onto the take-up roll 37

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A fixation of the wound on the surface of the copy tape 13 developed image can through the heater38 are accelerated, which cause the evaporation of the carrier liquid between the colored pigment parts favored

Although the layer dividing roll at every point between the Beschiokungsstelle the image suspension is provided on the transparent electrode and the image-forming zone may be, it is preferably as close as possible to the point of contact between the imaging roller and the transparent injecting electrode arranged so that the time of the dark discharge of the unipolar particles before the Image generation is as short as possible

Any suitable non-conductive carrier liquid can be used with the invention. Typical carrier liquids are decane, dodecane, tetnadecane, melted paraffin wax, melted beeswax and other melted thermoplastic «plastic materials, Sohio Odorless Solvent, a kerosene» part of the Standard Oil Company of Ohio, Isopar G, a branched, saturated, aliphatic hydrocarbon mixture of the Humble Oil Company of New Jersey, olive oil, mineral oil, linseed oil, sunflower oil, cotton oil, marine oils such as spermacet " oil and cod liver oil, silicone oil such as dimethylpolysiloxane (Dow Oorning Oo ·), castor oil, seed oil, peanut oil, fluorinated hydrocarbons like tfreon (duPont) and compatible mixtures "* gen this substance

For imaging, stresses can be used within a large Already connected to the electrodes * For the electric field in the imaging zone is preferred wise a field strength of at least 5 volts / micron and to achieve good image resolution and tinting diodes preferably of oa »20 volts / micron or more used, so

>'■'rfl> iQ . ORIGINAL INSPECT £ D

10981671896

that an electric field of at least approx * 300 volts · The applied voltage for the electric field of suitable strength is naturally dependent on the distance between the electrodes and the thickness and type of barrier electrode material on the surface of the imaging electrode depend on »The preferred voltages used are normally above the Corona threshold at approx« 3500 volts, * in order to maintain the stratification effect through the roller electrode 20 and prevent too rapid a dark discharge and Wan " In order to avoid changing the parts into the background areas, voltages of the order of magnitude of 8000 volts result Good quality images. The upper limit of the field strength is only determined by the excess voltage of the image suspension and the barrier electrode material

If the image suspension is between the transparent Electrode and the layer dividing roller are passed through, so the parts are made unipolar and evenly in the carrier liquid deposited on the surface of the transparent electrode, creating a two-layer film, which formed the outermost sole The image material suspension is then in the imaging zone between the transparent Electrode and the image forming roller led in «The image generation achieved with the invention takes place in the generally from negative to positive or from positive to negativeTo create the positive image on the receiving sheet, a negative image is thus projected into the imaging zone. As already stated, a voltage is switched on to the image substance suspension, and by the action the activating radiation removes the pigment particles suspended and irradiated in the carrier liquid » which sit evenly on the surface of the transparent electrode due to the action of the layer dividing roller, cause them to wander on the surface of the imaging roller

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receive receipt a. The Pigmentβtoffbilä produced may irrespective of whether it is Bioh on a removable Sperrelektrodensohioht on a conductive core of the image-forming roll or on a receiver sheet, wherein · * a film spielsweiee by placing it on β ^'1 surface or by spraying with a thermoplastic Mate, rial or by the action of heat by means of a heating element that removes the recyclable solvent. If desired, the image can also be transferred to a second image carrier, on which it is then fixed. The method described produces a monochrome or multicolor high contrast image with little or no background drawing in a positive-negative or a negative-positive imaging sense

Will the image be on an electrode surface without intervening Receiving sheet generated, so it is advantageous transferred from the electrode to another image carrier and fixed thereon so that the electrode repeats Such image transfer can be carried out by adhesive peeling or, preferably, by electrostatic Transfer. Is the imaging roller covered with a paper wrapper or a tape between both electrodes or is the barrier electrode material from a removable sleeve, for example made of Tedlar, this intermediate layer takes the complete one Picture up and only has to be removed in order to get the picture as a final copy be replaced by a similar material · In the embodiment described, the images are placed directly on a Receiving sheet or other surface, with the image generated on the NESA electrode being generated by the focus roller is removed · Palis is desired, but the image produced on the NESA electrode can also be reduced to a Receiving sheet of the usual kind to be transmitted like it

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204

Any suitable material can be used as a receiving surface for the generated image, for example the paper shown in the illustrated embodiment. If a Durohsiohtbild is to be generated, Mylar (polyethylene terephthalate) can be used as the receiving sheet or cellulose acetate can be used.

It should be noted that the one shown in the figure Embodiment of a device for carrying out the method according to the invention is not restrictive for the Brfindungsthought should be understood. Similar embodiments are possible, which are designed differently and yet meet the requirements of the method · For example, the imaging electrode may be in the form of a flat plate, which also applies to the injecting NESA electrode «Furthermore, depending on the particular Execution of Electrode and Other Aspects of the Process, each imaging electrode is optical be transparent and the exposure through it take place·

A single electrode should be placed under an injecting electrode be understood, which preferably have a charge from * Tausoh with the light-sensitive particles of the image suspension enabled when this is exposed. This can lead to a change in the self-charge polarity of the particles take place. A blocking electrode is to be understood as a single electrode with negligibly less electrons Amount injected into the photosensitive particles or absorbed from them when the parts with the electrode surface come into contact · The use of a barrier electrode serves to prevent particle oscillation

An additional benefit of using a shoe

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20 ^ 49

-H-

Lung role in the process according to the invention is that in suspension of certain pigment substances, for example of phthalocyanine, an electroviscous effect occurs, by the tension applied to the layer dividing roller effectively increases the viscosity of the image suspension «This increases the force between the suspension and the surface of the film splitting roller is increased, allowing more dye through the contact row between the roller and the transparent electrode is moved · So if electroviscous dyes are used, the use a pre-tensioned leveling roller also provides an adjustment in connection with the other sizing devices effect of the total layer thickness in the imaging zone

Preferably, the injecting electrode consists of one optisoh transparent material, for example made of glass, which is coated with a conductive material such as tin oxide, copper, Copper iodide, gold or similar is coated »It can but also other suitable substances including many semiconductors are used, ZoB * a cellophane film, these substances are not normally considered to be conductors, but can be injected charge carriers of the appropriate polarity absorb the influence of an electric field · The use of more conductive materials enables a better charge separation and prevents possible accumulation of charges the electrode. The blocking electrode is selected in such a way that that it prevents or significantly reduces the injection of electrons into the light-sensitive pigment particles, when the parts reach the electrode surface The core of the barrier electrode is generally made of a material that has good electrical conductivity · Typisohe such materials are conductive rubber and metal foils made of steel, aluminum, copper and brass · Preferably

ORIGINAL INSPECTED

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the core of the electrode has a high electrical conductivity in order to be able to generate the desired potential difference. However, if a material with low conductivity is used, a special electrical connection must be made be provided to the rear of the locking electrode layer. For example, the blocking electrode or the relevant Sleeve made of a semiconducting polyurethane that

8 9 has a specific resistance between approx.10 and 1 (r ohm cm) If a core made of hard rubber, which is non-conductive, is used, a metal foil can be provided as a base for the barrier electrode sleeve. Although a barrier electrode material does not necessarily have to be used is preferably provided since thus the imaging results are substantially improved ₀ the Sperrelek · * trodenschioht either an insulator or a semiconductor may be, of a sufficient number of carriers a passage under the influence of the electric field and thus the discharge of the bound to the Elektrodenoberfläohe particles, and Prevents oscillation of the particles in the system. This results in better image density and resolution. Even if the barrier electrode allows the passage of some charge carriers to the photosensitive particles, it falls into the class of preferred substances if it allows the passage of a sufficient number of charge carriers prevents the particles from recharging to the opposite polarity. Examples of suitable barrier electrode materials are baryta paper, Tedlar (a polyvinyl fluoride), Mylar (polyethylene terephthalate) and polyurethane. Any other suitable material with a resistivity of about 10 ohm cm or more can be used. Typical materials in this resistance range are cellulose acetate-coated paper, cellophane, polystyrene and polytetrafluoroethylene. Other materials usable for the injecting and blocking electrodes and other kinds of photosensitive parts can be used under various conditions

1098 Ki / 1896 OWQtNAL INSPECTED

204 υ ο 4

The US patent pens are also provided for performing the procedures 3,384,565, 3,384,566, 3,384,488 and 3,383,993.

Any suitable type of photosensitive pigment found in listed in the aforementioned patents can be used in the practice of the invention. The selection depends essentially τοη the photosensitivity and the required Sensitivity spectrum from · Typically light-sensitive Substances are substituted and unsubstituted organic pigment substances such as phthalocyanines, for example Monarch Blue G, the beta form of copper phthalooyanine, available from Hercules, Ine, quinacridones such as Monastral Red B, available from duPont, Algol Yellow, i ^^ fo-DiiGjö'-diphenylJ-diazoanthraohinon, 0.1. No. 673OO,

Irgazine Red, a trisodium salt of 2-carboxylphenylazo- (2-naphthio]) - 3,6-disulfonic acid, OI No. 16105, 3-benzylideneaminocarbazole, 3-aminooarbazole, Watohung Red B, (1-4 ^f -methyl-5 ' -chlorazobenzene-2 ^f -sulfonic acid) -2-hydroxy-3-naphthenic acid, OI, No. ₀ 15865, the yellow pigment Yellow 96, containing N-2 "-pyridyl-8,13-dioxodinaphtho- (2,1-bj 2 ¹ , 3'-d) ~ furan «6-oarboxamide and inorganic pigment substances such as cadmium sulphide, cadmium selenide, selenium, antimony sulphide, arsenic sulphide, zinc oxide and mixtures of these substances.

To further illustrate the properties of the process according to the invention, the following examples serve However, the invention is not intended to restrict · proportions and percentages relate to weight, unless otherwise specified ·

The following examples work with an injector

ORIGINAL INSPECTED

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204 ,, - 349

NESA electrode cm from a pyrex glass cylinder of 15 Durohmesser and a concentric therewith and with a thickness of conductive Zinnoxidüberzug oa _e is 0.025 mm. The imaging or blocking electrode consists of a conductive steel core with a diameter of 10 µm and a polyurethane base applied to it as a blocking electrode with a thickness of 6 mm. The layer dividing electrode (background control electrode) consists of an aluminum core with a 1.25 µm diameter that is covered with a 6 mm thick layer of polyurethane

Example I.

An oyan image suspension with 4.0 grams of X-phthalooyanine, 2.0 grams of tricresyl phosphate (TCP), 0.05 grams beta-carotene and oa · 160 oom spermacet oil is combined with a Urethane sponge on a glass cylinder covered with tin oxide applied · The film of the image suspension is brought to a thickness of approx · 3 microns · Between the splitting roller and the NESA electrode become one Voltage of oa · +7000 volts generated on the image substance suspension. While the image suspension is between the gap the NESA electrode and the imaging electrode is guided, a negative image is placed on the imaging zone projected. During this exposure, a field of oa · +8000 volts is generated on the image substance suspension 500 watt quartz iodine lamp illuminates the film negative. That light is guided through an optical system and projected onto the gap with a first plane mirror. Oyan colored pigment particles are selectively deposited on a paper Receiving sheet deposited in the imaging zone «Das X-phthalooyanine is disclosed in U.S. Patent 3,357,989 manufactured. Ee results in high quality images with minimal background drawing with an image density of 1.2 and a background dense β of 0.01 with a Be

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Driving speed of oa · 18 om / seo. Dae above The procedure will be carried out in the event of a failure to receive the right sharing " trode carried out «The background density is then 0.3, the picture diameter 1.2.

Example II

The procedure of Example I is repeated with the difference that a magenta colored image suspension is used which consists of 6.0 grams of Monastral Violet, 2.0 grams of TCP, 0.05 grams of beta-carotene and 106 com of spermacet oil. The layer is produced with a thickness of about 4 microns. The voltage applied to the layer dividing roller is above. +8000 volts. The operating speed is oa _e 13 om / seo. It is a magenta image with minimal background eiohnung ζ generated on the Oberfläohe of the paper receiving sheet which Wirde passed between the NESA electrode and the image-forming electrode, the image density is oa x 1.0, the Hintergrunddichtβ 0.02 · The Monastral Violet is commercially available from EI duPont de Nemours & Oo. receivesIioh

The above procedure is not wired Sohioh-dividing electrode repeatedly. The background diohte is then 0.4, the image diameter is nooh 1.0

Example III

The procedure from Example I is repeated with the bottom that a yellow image suspension is used, the 20 grams of Shepherd Golden Yellow Nr, 55, 2 grams of TCP, 0.05 grams of beta-carotene and 106 oom Sohlο Odorless Solvent contains · The sole dividing roller carries a tension of oa · -6000 volts, the imaging roll a voltage of oa · -7000 volts. The yellow pigment is commercially available from Shepherd Chemioal Company. The operating

ORIGINAL INSPECTED

109816/1896

so speed is oa. 13 om / seo. Ea gives aioh a yellow High quality image with the least amount of background drawing and a background density of 0.01

The above procedure is used when the device is not connected Layer dividing electrode repeatedly. The background density is then 0.25 "the image thickness is still approx. 1.2"

Example IV

The procedure from Example I is repeated with the difference that a three-component mixture is used as the image-material suspension instead of the oyan-colored suspension. The three-substance mixture consists of equal proportions of Watchung Red B, a barium salt of 1- (4'-methyl-5'-chloro-2'-sulfonic acid) azobenzene-2-hydroxy-3-naphthenic acid, OI No. 15865, Monolite Past Blue GS, a mixture of metal-free alpha- and beta-phthalooyanine, available from Arnold Hoffman Co., OI No. 74100, and the predominantly yellow pigment N ~ 2 ^ll -pyridyl-8,13 ~ dioxodinaphtho- (2,1-bj 2 ^f , 3'-d) furan-6-carboxamiä. Mineral oil is used as the carrier liquid, the proportion of the total pigment substance or the like being “8% by weight of the suspension Operating speed of 5 om / seo

Although the above examples regarding process conditions and substances used contain certain information, any other of the substances mentioned above can also be used if the results are similar. Further further procedural steps or changes in the Method according to the invention can be provided. For example, more than one solar dividing electrode can be used

^109816/1896 OR ₁ GINAl, NSPECTED

will. Furthermore, a multicolored image can be generated, by first producing color separation negatives of a color image and then duroh production of single-color images corresponding to the negatives one after the other on three 'special ones Image generation stations a color image is generated · Furthermore Each image can be reproduced and transmitted one by one or each image will be transparent on a single Sheet produced, after which the individual images are superimposed and a transparent image for projection produce. Furthermore, substances can also be provided in the image substance suspension, other tensions can be used can be used, the layers can have different thicknesses and the operating speeds different values. · As a result each can be an enhancing, synergistic, or otherwise beneficial effect can be achieved. For example, various sensitizers can be used in the image suspension be provided that improve the final results «

ORIGINAL INSPECTED 109816/1896

Claims (1)

204>;> 49 - 21 - Claims Photoelectrophoretic imaging process in which a solution of an image suspension of electrically photosensitive pigment particles in a carrier liquid between at least two electrodes, one of which at least partially for electromagnetic radiation is permeable, an electric field and, through the permeable electrode, an image-wise one distributed electromagnetic radiation is exposed ι characterized) that the image substance suspension (5) between one of the electrodes (1, 10) and at least one further electrode (20) a second electrical peId is exposed, which with a span voltage is generated that is above the Oorona Sohwellwert of the Image fabric suspension was lying 2 · The method according to claim 1, characterized in that an image suspension is used which at least contains two differently colored, finely divided types of particles in the carrier liquid, each type of particle contains an electrically light-sensitive pigment * substance, the main light absorption band of which with its Main sensitivity area collapsed 5. The method according to claim 1 or 2, characterized by that the two electric fields have the same polarity " 4e method according to one of claims 1 to 3 $ daduroh, that a forming substance suspension (5) with a layer thickness of at least 1 micron is used » 5 · Procedure according to one of the stages 1 to 4 _f daduroh INSPECTED 109816/1896 2043549 characterized in that at least one of the electrodes (1,10; 20) generates the second electric field between them is at least partially transparent to electromagnetic radiation and that the image-wise distributed Radiation through the thermoset electrode hinduroh he follows· 6 · The method according to claim 5, characterized in that « a roller (1) is used as a thermosetting electrode, which is connected to the surfaces of the remaining electrodes (10, 20) is in contact " 7 «Method according to one of claims 1 to 6, characterized in that that between one of the first electrodes (1, 10) and the further electrode (20) an image-receiving sheet (13) on which the image is generated « 8. The method naoh claim 2, characterized in that an image suspension is used, the oyan one Particles with mainly red light sensitivity, magenta-colored parts with mainly oil sensitivity and contains yellow particles with mainly blue light sensitivity 9 · Device for carrying out the method according to one of claims 1 to 8, characterized by a rotatable mounted first electrode (20), parallel to which an optically transparent second electrode (1) can be rotated slightly Is supported at a distance, by means of at least one wider image generation electrode (10), which is rotatably mounted near the transparent electrode (1), by means of a device (6, 6) for feeding image material suspension (5) onto the surface of at least the first (20) and / or the »wide electrode (1), duroh a device for 109816/1896 originally inspected Rotation of the electrodes (1, 10, 20) synchronously with one another, by a device for projecting an image onto the formation suspension (5) in the contact area the transparent electrode (1) with the image forming electrode (10) and by devices (35 »25) for generating an electric field on the image material suspension (5) in the area of contact between the first electrode (20) and the transparent electrode (1) and the transparent electrode (1) and the images generation electrode (10) ο 10. The device according to claim 9 »characterized in that that between the imaging electrode (10) and the transparent electrode (1) in the contact area an image receiving sheet (13) is arranged β device according to claim 9 or 10, characterized in that that the projection device an image in the direction of the longitudinal axis of the transparent electrode (1) projected 12 · Device according to one of claims 9 to 11 »thereby characterized in that the transparent electrode (1) is in contact with the other electrodes (10, 20) standing, idling roll is 13 · Device for carrying out the procedure naoh ein of claims 1 to 8, characterized by a rotating bar mounted first electrode, which has an optically trans is associated with the parent second electrode in the form of a flat plate at a short distance, so that only Electrode is in rolling contact with the flat electrode, rotatably supported by at least one other Imaging electrode, the longitudinal axis of which is parallel to the Longitudinal axis of the "rate electrode is arranged and the 109816/1896 ÖfÖ INSPECTED is in rolling contact with the flat electrode a device for supplying an image suspension to the surface of the flat electrode, through a feed Direction for exposing the supplied image substance sludge with an image and by means of a device for Generation of an electric field on the image material · » suspension while touching the rotatable electrodes and the flat electrode 14 device according to claim 13 $, daduroh marked, that an arrangement for separating the flat electrode from the rotating electrodes is provided « ORIGINAL INSPECTED 109816/1896