DE1940690A1 - Monomers for photopolymerization - Google Patents

Abstract

Photopolymerisable substance contains as monomer with C-C multiple bond crystalline dynes with conjugated C-C treble bonds which contain polar groups on both sides of the rigid conjugated system. Polymers obtained have metallic shine and are conductive, but are resistant to alkalis and acids and are not soluble in the solvents for the monomers. A preferred dyne is hexadiyne-(2,4)-diol-(1,6).

Description

Method of Making Pictorial Records The Invention relates to a process for the production of colored to shiny metallic images as a process of fixing information by imagewise exposing a layer with polymerizable monomers.

There are already known photochemical processes, the image-like Stir representation of optically represented information, e.g. the silver halide process, the processes of diazotype, processes in which dyes e.g. by photoreduction converted into their colorless leuco compounds, or photochromic systems, those on exposure with a batchochromic shift of the absorption bands to form images to lead. See the abstract in the book by J. Kosar, "Light Sensitive Systems ", New York 1966.

Such systems for optical information fixing are also known to use, which polymerize under the influence of light. With the previously known Reactions of this type take place rptg-Additlonspolymerisations that of unsaturated Monomers lead to more or less saturated polymers. Based on the monomers a hypsochromic shift of the absorption bands of the spectrum takes place.

It has now been found that images by targeted image-wise exposure, Irradiating and / or heating an optionally applied to a carrier Layer with at least one polymerizable, low molecular weight monomer that Contains at least one multiple bond, possibly in the presence of photosensitizers and then inactivating and / or removing the monomers in the unexposed Layer parts could be produced surprisingly advantageous if as polymerizable, low molecular weight Monomers with a C-C multiple bond crystalline diynes with conjugated C-C triple bonds, which have polar groups on both sides of the rigid conjugated system, be used.

It was surprising to find that the diynes in a topochemical Transition polymerization into polymers that have a higher degree of conjugation than the monomers used, i.e. more high molecular weight in the image-wise fixed areas Cumulas are formed, which have a metallic luster and an electrical conductivity exhibit. The resulting colored polymers are quite inert and reactive e.g. against cold and hot alkalis as well as against strong acids such as cold, concentrated Sulfuric acid resistant. They are also no longer soluble in the solvents, in which the monomers used for the polymerization are soluble, so that a Separation of the monomers in the unexposed layer surfaces can easily be carried out is.

As crystalline diines with conjugated C-C triple bonds, the have polar groups on both sides of the rigid conjugated system in the molecule, diacetylene compounds with such polar groups are particularly suitable on both sides of the conjugated part of the molecule, the directional secondary valence bonds are able to form and thus facilitate the orientation of the monomers in the crystal. This contributes to a significant increase in the rate of polymerization Monomers at, which leads to higher photosensitivity of the monomers. Suitable polar groups are, for example, hydroxyl groups, carboxyl groups, amide groups, urethane groups or urea groups, also ester groups and sulfonate groups.

Of the diyne compounds used according to the invention, the compounds of the formula may be mentioned in particular highlighted, where X and Y radicals with polar groups2 in particular polar groups containing oxygen and / or nitrogen atoms such as hydroxyl groups, etherified or esterified hydroxyl groups, urethane groups (-OCO-NHR³), urea groups (-NH-CO-NR³R4) and or amide groups and R2 , R3 and / or R4 represent hydrogen and / or organic radicals having 1 to 14 carbon atoms, in particular optionally substituted hydrocarbon radicals.

Because of the easy technical accessibility, the monomers hexadiyne- (2,4) -diol- (1,6) and their derivatives prepared by reaction of the hydroxyl group are particularly interesting. The reaction products with isothiocyanates and isocyanates may be mentioned, in particular the monoisocyanates, such as the mono- and / or bis-phenylcarbamates, -naphthylcarbamates, -n-butylcarbamates, -eyclohexylcarbamates, -p-tolylcarbamates -p-chlorophenylcarbamates or -m-chlorophenylcarbamates, the reaction products with organic sulfonic acid halides, the sulfonates also the reaction products with excess amounts of bi-functional Compounds in particular with dicarboxylic acids or their anhydrides or diisocyanates, like the acidic bis-succinic acid esters, the terminal ones free functional groups can also be converted into derivatives, e.g. the isocyanate groups in urethane or urea groups or the carboxyl groups in Amide groups.

Hexadiyne- (2,4) -diol- (1,6) can advantageously also be converted into the derivatives of the formula with ethylene oxide, 1,2-propylene oxide, ethyleneimine or 1,2-propyleneimine with R4 - 5 R5 = H or R4 = H and R5: OH3 or R4 - CH3 and R5 = Z = -O-, -NH-, (R1, R2 = as stated above) and n, m = integer between 1 and 10, are reacted, the resulting dihydroxy compounds (X, Y = H; Z = O) or diamino compounds (X; Y = H; Z = N), as stated above, further reacted and, for example, in carbamates, ureas, acidic esters or sulfonates can be converted. Also of interest are compounds of the formula given in which X and / or Y radicals with color-bound groups are linked to the diacetylene system; be, -as for example by reacting dye residues with an isocyanate group. Hexadiyne- (2,4) -diol- (i, 6) is easily possible. In this way, special color effects can be achieved during image generation.

It has proven to be particularly useful to use crystalline, recrystallized from a polar solvent or a mixture of such solvents To use Diine. B-preferred are aqueous solvents, e.g. mixtures of dioxane and water, tetrahydrofuran and water, dimethylformamide and water, glacial acetic acid and Water or acetone and water. In an advantageous embodiment, the Diyne monomers directly from dilute, e.g. 0.1 to 10 wt. % solutions in the above Microcrystalline solvent types on the carrier, ZeE (foils, papers, glass, Metal or plastic plates, textiles, leather or similar materials are applied. The preferred diynes crystallize from the polar solvents in needle-like form ribbon-shaped structure. The solutions can additionally solidify the monomers Conventional binders contain dissolved, emulsified or dispersed, further e.g.

Photosensitizers or inhibitors. Of course they can too Diines in the form of crystal suspensions, if necessary together with conventional additives, be applied to the carrier.

In the production of the layer used for the creation of the image as well as their storage, exposure or irradiation, it is useful to Yes in many pollen required, the crystalline monomers used according to the invention do not heat to temperatures above their crystalline melting point. A warming of the monomers, preferably to temperatures a few degrees, e.g. 2 to 200C, below their melting point is. on the other hand, when the monomers are exposed or irradiated Ur shortening of the exposure time favorable The exposure can be done with the help of the usual Sources of high energy Light take place; preferred is light, however, irradiation with ionizing rays, x-rays or accelerated electrons possible. For exposure, e.g.

by negative originals, preference is given to lamps that have a mixed Emit UV radiation, such as high, medium or low pressure mercury lamps or superactinic fluorescent tubes are used.

A special variant of the process is to use the monomer-containing Briefly pre-irradiate layers, in particular the monomer crystals in a thin layer and then to bring the color and image effects to full thermal development. on in this way, particularly high throughput times can be achieved.

The exposure can be done with light that corresponds to the absorption spectrum of the diyne monomers, but also in the presence of traces or the usual small amounts of photosensitizers with light emitted by the photosensitizers is absorbed. The usual photosensitizers can be used, as described e.g. in Chapter 5 of the quoted book by J. Kosar, and of which the most suitable can be quickly determined through a preliminary test. Same thing applies to the exposure time, which depends on the type of stencil, type of Diin connection, the desired depth of color, the temperature, the type of light or radiation and the Type of further additives is influenced.

After the image has been generated or the information has been written, you can the unreacted monomers e.g. by tempering at a temperature above The crystalline melting point of the monomers is converted into a non-polymerizable form, i.e. are inactivated or removed from the layer in a manner known per se, e.g. by sublimation or by washing out with the help of solvents.

The parts mentioned in the following examples are, if not otherwise indicated, parts by weight. Parts relate to parts by volume like kilograms to liters.

Example 1 0.50 part of hexadiyne- (2,4) -diol- (1,6) -bis-phenyl urethane, made from hexadiyne- (2,4) -diol- <1.6) and phenyl isocyanate, are in 100 Dissolved parts by volume of Xeißem dioxane and slowly adding 600 parts by volume with vigorous stirring cold water added.

The bis-phenyl urethane fine needles are placed on a round filter applied evenly and covered with a thin layer of gelatin. After careful The photoreactive layer produced in this way is dried in the absence of light after placing a stencil through it, irradiated with a UV high pressure lamp. Depending on the exposure time used, a will appear in the exposed areas light red to deep brown color. The exposure times are between 0.5 seconds and several minutes depending on the thickness of the stencil and depending on the one desired Color depth. The unreacted monomer is washed to fix the image of the image removed with acetone or dioxane.

Example 2 0.50 part of hexadiyne- (2,43-diol- (1,6) -bis-p-chlorophenyl urethane, prepared from hexadiyne- (2,4) -diol- (1,6) and p-chlorophenyl isocyanate, are in 1,000 parts by volume of hot dioxane are dissolved and then 2,000 parts by volume are hot Water added. Fine crystal particles separate out after rapid cooling to 500C away.

It is diluted with a further 3,000 parts by volume of water and the resulting Apply the suspension evenly in a thin layer to a sheet of filter paper. After covering with a layer of gelatin, it is carefully dried. The resulting The photoreactive layer can be safely stored in daylight for a few hours An exposure of the photoreactive layer through a stencil with a UV high pressure lamp quickly leads to a wine-red discoloration of the layer on the exposed Place. Exposure times between 1 and aoo seconds depending on the type of stencil and according to the desired depth of color are sufficient for image generation. For fixation the exposed layer is extracted with acetone, leaving the unreacted monomer is washed out.

Example 3 0.70 part of hexadiyne- (2,4) -diol- (1,6) -bis-α-naphthyl urethane are dissolved in 100 parts by volume of hot dioxane and then slowly become 600 parts by volume cold water added. With this suspension of fine crystals is excluded A round filter is evenly coated by light and then coated with a gelatin film After careful drying, the photoreactive layer is covered by a stencil exposed with a UV high pressure lamp. A is created in the exposed areas brick red color. To fix it, the resulting image is washed with a lot of dioxane. Depending on the desired color depth, exposure times are between 5 and 200 seconds suitable for image generation.

Example 4 0.20 parts of hexadiyne- (2,4) -diol- (1,6) -bis-phenyl urethane are dissolved in 100 parts by volume of dioxane and with vigorous stirring with 500 parts by volume n-heptane added. A suspension of fine crystal particles is formed, which through Can be separated with suction from the mother liquor. The crystal particles are turned into a Stirred in solution of 0.150 parts of polyvinyl butyral in 30 parts by volume of chloroform. The viscous paste is evenly applied to a polyamide carrier film. After the chloroform has evaporated, the resulting photoreactive film is covered by a. Stencil exposed with a UV high pressure lamp. It arises in the exposed areas a deep red discoloration. Depending on the desired color depth, exposure times are between 1 and 200 seconds suitable. The exposed film is used for a few minutes to fix it bathed in a mixture of acetone and methanol (volume ratio 2: 1). To after drying, a transparent film is obtained, which in the exposed areas is deep red, colorless in the unexposed areas.

Example 5 A sheet of filter paper is concentrated with a Solution of octa-diyne- (3,5) -diol- (2,7) -bis-n-butylcarbamate (melting point 74 ° C) in Soaked in acetone. After drying, the paper will with a UV high pressure lamp exposed through a mask for 5 minutes. Forms in the exposed areas a red discoloration. The monomer remaining in the unexposed areas is washed out with acetone and thereby fixes the image.

Example 6 A sheet of filter paper is concentrated with a Solution of 3,6,13,16-tetraoxa-octadeca-diyne- (8,10) -diol- (1,18) of the formula [HO (CH2-CH2-O) 2-CH2-C = C-] 2 (Melting point 45 ° C) soaked in acetone. After drying, the paper is covered with a UV lamp exposed through a mask for 3 minutes. Forms in the exposed areas yellow-red discoloration. The monomer remaining in the unexposed areas is washed out with methanol and thereby fixes the image.

Example 7 A sheet of filter paper is concentrated with a Solution of 3,6,13,16-tetraoxa-octadeca-diyne- <8,1O) -diol- (1,18) -bisphenylcarbamate of the formula [C6H5-NH-CO-O- (CH2CH2O) 2-CH2-C = C-] 2 (melting point 105 ° C) in boiling Xthanol impregnated. After drying, the paper is exposed to a UV lamp for 3 minutes exposed through a mask. A cherry-red color forms in the exposed areas Discoloration. The monomer remaining in the unexposed areas is treated with ethyl acetate washed out and thereby fixed the bid.

Examples 8-13 Absorbent papers of the same type are each with 5 Xigen solutions of hexadiyne- (2,4) -diol- (1,6) -bis-n-butylcarbamate in acetone, which in example 8 no photosensitizer, in examples 9 to 13 those given below Photosensitizers are added in amounts of 0.1% each, soaked. To After the impregnated papers have dried, these 4 minutes become tan with a Raater test negative with a superactinic fluorescent tube (Type Sylvanid Blacklight F40 BLB) exposed from a distance of 5 cm and the discoloration, the image and raster quality compared.

The result is shown in the following table, in which + is a satisfactory, ++ a good and +++ a very good quality or discoloration means.

Example photosensitizer discoloration image quality raster quality 8 + + + 9 benzoin methyl ether +++ +++ ++ 10 benzoin isopropyl ether +++ +++ ++ 11 Acetophenone ++ ++ + 12 Benzophenone ++ ++ + 13 Benzaldehyde ++ + +

Claims (3)

A method for producing pictorial records by targeted image-wise exposure, irradiation and / or heating one on one Carrier applied layer with a polymerizable, low molecular weight monomer, which contains at least one C-C multiple bond, optionally in the presence of Photosensitizers and subsequent inactivation and / or removal of the monomers in the unexposed parts of the layer, characterized in that the polymerizable Monomers with a C-C multiple bond crystalline diynes with conjugated C-triple bonds, the polar groups on both sides of the rigid conjugated system in the molecule have used. 2. The method according to claim 1> characterized in that as crystalline diynes those used on both sides of the rigid conjugated system polar groups in the molecule that are able to form directed secondary valence bonds, exhibit. 3. The method according to any one of claims 1 to 2, characterized in that that recrystallized diynes are used from a polar solvent. 4, method according to any one of claims 1 to 3, characterized in that that the crystalline diines before and / or during imagewise exposure, irradiation and / or Heating to be kept at a temperature below their melting temperature.