DE811313C - Process for the production of colloidal silver - Google Patents

Description

(WiGBl. P. 175)

ISSUED AUGUST 20, 1951

p 37230 IVa / 57b D

The invention relates to the manufacture of colloidal silver for use in layers of such colloidal silver in colloidal media in photographic materials.

It has long been known that by adding a reducing agent to a dispersion of a soluble Silver salt in a colloidal medium, such as. B. gelatin, slowly a colloidal silver dispersion formed by silver, which in most cases is yellow in color. So there is one method that has been proposed is to a dispersion of silver nitrate in gelatin add some hydrazine sulfate. The hydrazine sulfate is slow for the duration of a Hour added and the resulting mixture at a slightly elevated temperature left to stand for another three quarters of an hour. In this way it becomes a yellow dispersion obtained from colloidal silver.

Yellow colloidal silver formed in this way is of value in ao Photographic as a medium for filter and Antihalation layers, and there are various methods using yellow colloidal Silver has been described in the literature for these purposes.

The present invention relates to the production of colloidal silver which is used in manufacture can be used for filter and antihalation layers in photographic materials, and is based on the knowledge that if

a small proportion of silver sulfide or silver selenide nuclei or nuclei during the reaction is present, d. H. colloidal silver sulfide or silver selenide, which reacts with a very strong accelerated speed and yellow colloidal silver of excellent texture is obtained.

According to the present invention, therefore, colloidal silver is obtained by in a aqueous colloidal medium, a soluble silver salt and a reducing agent therefor in the presence of dispersed colloidal silver sulfide or silver selenide reacts.

Even if the procedure in any water-permeable colloidal medium can be carried out, e.g. B. in an aqueous dispersion of Polyvinyl alcohol or similar material, it is preferable to react in a gelatin medium to execute. The silver salt used can

_{ao be} any silver salt that is soluble in water and is relatively easily reduced; Silver nitrate appears particularly suitable. Although any reducing agent can be used, it is preferable to use one which

₉ , is also a good photographic developer, e.g. B. hydroquinone, p-oxyphenylaminoacetic acid, p-methylaminophenol sulfate, f-phenylpyrazolidone-3, p-phenylenediamine substitution derivatives. Relatively ineffective photographic developers such as

z. B. hydrazine are less satisfactory. Particularly good results are with p-oxyphenylaminoacetic acid has been achieved.

The colloidal silver sulfide can easily be produced by reaction between thiourea and silver nitrate can be obtained. The preferred type of process is the colloidal silver sulfide in the colloidal Forming medium as a first stage, then the soluble silver salt and finally the reducing agent to add. The resulting dispersion, which contains colloidal silver, can be used allow to settle, crush, wash and redisperse in water to form a coating solution, from the filter and antihalation layers of intense yellow color and excellent texture can be obtained.

Colloidal silver selenide cores can be prepared in a similar manner using Selenium urea can be produced in place of thiourea.

The amount of reagents and the silver sulfide or selenide that act as a catalyst seems can be varied widely, but the optimal amount of silver nitrate appears in of the order of 2cc of my normal silver nitrate solution per 100 ecm of a 5% gelatin solution to lie. Smaller amounts than the above result in a lower color intensity, and Amounts below half the concentration given above give only a faint color.

Larger amounts tend to give a relatively cloudy product, and for this reason it is preferred not to use more than twice the above concentration. It it can therefore generally be said that for most purposes the amount of silver nitrate will vary from On the order of 1 to 4 ecm normal silver nitrate solution should be 100 ecm 5% gelatin solution. The amount of reducing agent used is said to be substantially chemically equivalent to the silver salt for best results to achieve. The optimal amount of silver sulfide or selenide will vary with the other factors but z. B. When using a 3.5 "/ proprietary solution of gelatin, the best amount seems to be to be, which by the addition of 1 ecm of m / 20 thiourea or selenium urea with 1 ecm of n / 10 silver nitrate per 200 ecm of the gelatin solution is formed. Tend to be smaller amounts than this tend to give a somewhat gray product, while higher amounts, e.g. B. to 5 ecm from each Component, seem to make no difference to the intensity of the yellow coloration obtained.

The invention is explained in more detail in some embodiments in the following examples.

85 Example 1

Two liters of a 3.5% aqueous solution of gelatin were prepared, and to this solution were added 10 ecm of m / 20 thiourea and 10 ecm of n / 10 silver nitrate. The solution was then digested for 20 minutes at 52 ⁰ and then cooled to 32 ^0th 40 ecm of normal silver nitrate solution were then added, followed by the addition of 400 ecm of n / iop-oxyphenylaminoacetic acid dissolved in n / 10 caustic soda. A strong yellow color was formed immediately. The gelatin solution was then precipitated with ethyl alcohol. It was then soaked three times for 10 minutes each time in fresh water and finally redispersed in 1 ι water. This product has been found to have very good filter properties and very little effect on the sensitivity of the photographic emulsions with which they have been in contact when applied as the filter layer in a multilayer photographic material intended for color photography.

Example 2

The procedure of Example 1 was followed, no however, a m / 20 solution of selenium urea was used in place of thiourea. Similar Results were obtained.

It is possible to use sulfides or selenides of other metals according to the invention, however These are in the reaction mixture in silver sulfide or selenide by reaction with the soluble Silver salt converted so that its use does not change the basic character of the process, which is based on the use of a silver sulfide or selenide.

Claims (7)

PATENT CLAIMS: i. Process for the production of colloidal silver for auxiliary layers in photosensitive Material, characterized in that in an aqueous colloidal medium, a soluble silver salt and a reducing agent react in the presence of dispersed colloidal silver sulfide or silver selenide leaves. 2. The method according to claim i, characterized in that that gelatin is used as the colloidal medium. 3. The method according to claim 1 or 2, characterized in that the soluble silver salt Silver nitrate is used. 4. The method according to any one of claims 1 to 3, characterized in that as a reducing agent a photographic developer is used. 5. The method according to claim 4, characterized in that as a reducing agent p-Oxyphenylaminoacetic acid is used. 6. The method according to any one of claims 1 to 5, characterized in that ibis4 volume parts a normal aqueous solution of the silver salt with a chemically equivalent one Amount of reducing agent to be added to 100 parts by volume of the colloidal medium. 7. The method according to any one of claims 1 to 6, characterized in that the colloidal Silver sulfide or silver selenide by mixing in equal parts by volume of m / 20 Get thiourea or selenium urea and n / 10 silver nitrate in the colloidal medium will. 1212 8.51