SU1010591A1 - Light-sensitive diasotype material - Google Patents

Description

The invention relates to recording information on non-fertile media and can be used as a photocopier for microfilming, for printing. .

A photosensitive diazo type material consisting of a substrate and a photosensitive layer including a crosshair, I-methoxybenzene diazonium boron fluoride, is known, the Schöffer salt, polyvinyl ethyl, polyethylene glycol and a sensitizer, potassium ferric oxalate, which provides light, and a light cleaner, which provides light, and a light, and a light can provide a light, and a light can be used by a light, and a light can be provided by a light, and a light can be used by a light, and a light can be used by a light receiver, and a light can be used by a light phone, and a light can be used by a light phone, and a light can be used by a light receiver, and a light can be used by a light receiver, and a light can be used by a light phone, a phone, a potassium ferrioxalate, and an accessory can be provided by a light, a light, a polyvinyl ethyl, polyethylene glycol, and a sensitizer, a potassium ferrite, a cross section, and a cross section. .

The disadvantage of such a diazo type material is that it does not have sensitivity to the near-infrared spectrum (700 900 nm) .;

The purpose of the invention is to ensure the sensitivity of the diazo type material to the near infrared region of the spectrum (700-900 nm).

The goal is achieved by the fact that in a photosensitive diazo type material consisting of a substrate, a photosensitive layer consisting of a diazo component, Scheffer's salt, polyvinyl ethyl, polyethylene glycol and a sensitizer, paradiazodiethylaniline is used as a diazo component, and a center-cen-zy-zol-zy-zol-zy-zol-zy-zol is used as the iz-zol-zy-zol-zyrophilist, iz-zol-zy-zol is used as i-zol-zy-zol-zy-zolite. or Ш;

jlQi C - cm "(Shlu ST-SJ - CPG;) CIO-,

CJIaCeBs

PK-850

in the following ratio, wt.%:

V-Diazodiethylanilin1 ,, 3

The salt of Scheffer 2 ,, Polymethine dye of formula 1, P

or W 0it-1.5 Polyethylene glycol 11-15 Polyvinyl ethyl Remains For the manufacture of sensitized diaztypes of layers, use is made of the known technology for the manufacture of non-sensitized diazotypic fibers. Polyvinyl ethyl is firstly dissolved in ethanol in an amount. 5 wt. and in the resulting solution Polymethine dye is dissolved (o, 08). Then, in a mixture of water: ethanol 1: 3, the salt of Scheffer is dissolved and added to the resulting solution (0.25). Finally, p-diazodiethylaniline (0.15) and polyethylene glycol (0.8%) are dissolved in the resulting solution. The process of preparing the solution should be carried out in a dark place. To speed up the process of dissolving the ingredients, the solution is continuously stirred using a magnetic stirrer. The finished solution is poured on a polyester or triacetate substrate using a watering machine or manually using a profile tool that ensures a uniform layer on the substrate surface.

Dry the layer in the dark at room temperature or with heating up to 50-70 ° C. The dried layer contains: polyvinyl ethyl 79.6 Polymethine dye 1.3 Scheffer's salt, 0, p-diazodiethylaniline 2, k, polyethylene glycol 12.7.i

Image recording on sensitized diazotype materials is carried out according to our own method, i.e. contact way. For this, a slide is applied to the sensitized diazo material and pressed with glass to ensure contact between the original and the photosensitive layer. The system is then illuminated with an incandescent lamp or using daylight. The exposure time is chosen so that in the areas corresponding to the transparency of the original, in the diazo type layer, the photolysis of the diazo component is completed. For this reason, a predefined exposure time is predetermined. The diazo-type latent layer is developed by placing the material in a closed vessel filled with ammonia vapors allowing the azo coupling to proceed between p-diazodiethylanine and Schaeffer's salt, resulting in a visible colored image. PRI me R 1. A photosensitive layer is deposited on a cellulose triacetate substrate; %: p-diaodiethylaniline 3.8; Schaeffer's salt 5, 8; polyethylene glycol 11,0; dye PK-7 2 O, A; polyvini ethyl rest. S "0.008. PRI me R 2. As in example 1, but the dye is 0.0 wD, s 0.001. .one . . -. . PRI me R 3 As in example 1, but the dye is 1.5 wt.SS, S is 0.00. Example. As in example 1, but instead of dye 0, wt. dye PK-803. S «0.033, PRI me R 5 in the example-L, but the dye PK-803 0.0 weight GTG S 0,00 cmVJ., PRI me R 6. As in example V, but the dye PK-803 wt., 8 0, 015 cmVJ. PRI me R 7 As in example 1, but instead of the dye 0, D weight. PK-850 dye. S 0,00 cm / j. PRI me R 8. As in example 7, but the dye PK-850 0.0 wt.%, S 0,001 cmVJ. PR and ME 9. As in prizmre 7, but the dye PK-850 1.5 wt.%, S - 0.003 Try on. As (for example 1 but p-diazodiethylaniline 1.5 wt.%, S 0-, 00. Example 11. As in example 1 but p-diazodiethylaniline 5.3 weight, S 0.007. P p and meper 12. As in example 1, but polyethylene glycol is 9 wt.%, S is 0.00. The light sensitivity decreases, therefore, the concentration of polyethylene glycol is outside the allowable limit. EXAMPLE 13 As in example 1 but polyethylene glycol 15 weight .%, S 0.009 cm L / J. 1 1. Example (comparative). As in example 1, but polyethylene glycol 20 wt. % t S 0.009. The carrier and unstable in the dark, therefore, the content of polyethylenglycol went beyond the permissible. EXAMPLE 15 As example 1, but SOL and Scheffer 2,3, weight, S 0.008. Light sensitivity does not protect S1 from the concentration of salt Scheff. PRI me R 16. As in example 1, but according to Schaeffer 7.6 wt. %, S 0.008. With a further increase in the concentration of the salt of Scheffer, the layers become non-uniform. Example 17. As in the example h, but the salt Scheffer 2.3 weight. %, S "0.033. The photosensitivity does not depend on the concentration of salt Scheffer. PRI me R 18. As in example 1, but the salt Schaeffer weight. %, S 0.033. With further increase in concentration, the layers become non-uniform. Example 19 As in example t, but I-diazodiethylaniline 1.5 wt.%. S 0,018. smudzh. PRI me R 20. As in example 4, but p-diazodiethylaniline 5.3% by weight, S 0,028. PRI me R 21 (comparative. As in the example, but polyethylene glycol is 7.5 wt.%, S 0.015. Since the plasticizer must ensure the maximum photosensitivity of the sensitized dispersed material, its concentration must be such that its sensitivity does not decrease. here, the concentration is outside the acceptable range. EXAMPLE 22: As in the example, BUT of polyethylene glycol 15% by weight, 03B sk. Example 23 (comparative 7. As in the example, but polyethylene glycol 20% by weight, S 0.036 sticky and unstable in dark conditions Consequently, the concentration of polyethylene glycol is out of the range of permissible. P & M 2 (Comparative). As in example 7, but polyethylene glycol 9 wt. L S 0.002. The sensitivity decreases, as in the case of PC-7 2. 5 Example 25 (comparative). As in Example 7, but polyethylene glycol 20 wt.%, S 0.005. As in Example 8, the layers turned out to be sticky, unstable under dark conditions. EXAMPLE 26. As in the example but polyethylene glycol 15 wt.%, $ 0,005. PRI meper 27. As in the example, but salt Schaeffer 2.3 wt., 5 0,004. The photosensitivity does not depend on the concentration of the salt of Schaeffer. PRI me R 28. As in the example, but salt Schaeffer 7 wt., 5 0,. A further increase in the concentration of the salt of Scheffer results in layer non-uniformity. PRI me R 29. As in the example, but as a sensitizer, 1.5% by weight of potassium ferrioxalate. Sensitivity to X 500 nm. 16 "5 50, if the diazo component is parametoxybenzene.-diazonium. With 1-diazodistilanine, the material is non-light sensitive. Example 30. Ka KB example 29, but potassium ferrioxalate 4 weight., 9 100 cmVJ. Example 31 As in example 30 but polyglycol glycol 15 wt.%, 9 2b. Example 32 (prototype. As in example 30, but H-methoxybenzene 6 0. Diazonium 1.5 wt., The prototype). EXAMPLE 33 As in Example 30, but p-methoxybenzene diazonium, 5.3 wt.%, S 100. PRI me R 3. As in example 30, but the salts of Scheffer 7.6 wt.%, S 60. PRI me R 35 (prototype). As in example 30, but the salts of Scheffer 2.3 weight., S 100. The table presents the data on the production of dietetic materials.

Claims (1)

(5 ^) LIGHT-SENSITIVE DIA30-TYPE MATERIAL, consisting of a substrate and a photosensitive layer, including a diazocomponent, Schaeffer salt, polyvinyl ethyl, polyethylene glycol and a sensitizer, characterized in that, in order to provide light sensitivity of the diazotype material to the near 900 nm spectrum ( as diazocomponents, I-diazodiethylaniline is used; and as a sensitizer, a polymethine dye of the formulas is used in the following ratio of components, weight. I-diazodietilany- LIN 1,5-5,3 Schaeffer Salt Polymethine 2,3-7,6 colorant dye _ mules I, P or Sh 0.04-1.5 Polyethylene count 11-15 Polyvinyl ethyl Rest