DE498481C - Light filter - Google Patents

Description

Light filters light filters, especially photographic light filters, generally order from: a colloid layer made with an organic dye are colored of suitable absorption. Most of these filter layers are with one special layer support (glass, cell horn) connected. Such light filters have the Disadvantage that the organic dyes used for their production are insufficient have specific absorption, d. H. that their absorption is insufficient on one small spectral range is limited, so that to a certain spectral range Cut out through a light filter, still other spectral ranges in undesirable Way need to be dampened. Another disadvantage of using organic dyes manufactured light filters is that they are not sufficiently lightfast.

It has now been found that it is essential to use light-fast light filters Significantly better specific absorption is obtained if one takes the place of organic Dyestuffs Sols of inorganic substances with a corresponding degree of dispersion in appropriate concentration is used.

Inorganic sols with such a specific absorption as it is desirable in most cases for photographic purposes are first of all the sols of the metals, e.g. B. of silver. The degree of dispersion of these sols can be adjusted as desired, depending on how they are produced, and it is known that the position of the spectral absorption range is essentially determined by the degree of dispersion of the sol. So-called monodisperse sols, i.e. sols with the same particle size, are particularly suitable for achieving absorption in the narrowest possible spectral range. So you can use a single sol, z. B. a silver ought to change the spectral absorption not only quantitatively but also qualitatively to a large extent. This possibility can be used with advantage not only for the production of yellow filters, but also for the production of other color filters, such as such. B. for the purposes of three-color photography and darkroom lighting use.

In addition to the metal brine can be used for the production of light filters It is also advantageous to use brine from inorganic substances with a pronounced inherent color. Examples are brines of arsenic trisulfide, lead and silver chromate, Cadmium sulfide et al. m.

The concentrated brine will be. after this. described in the literature Process produced, be it that the substance to be dispersed by chemical Implementation (in an or Absence: a protective colloid) leaves or the material present in a compact state by suitable devices (e.g. by .the. electric arc) distributed in the dispersant. The sal is then diluted accordingly with a gelatin solution, whereupon the Can pour filter in a known manner.

Example Equal parts of a 100 percent dextrin and a 10 percent sodium hydroxide solution and add to every 10 cc of this solution 15 cc of an 10 percent silver nitrate solution. z ccm of this sol are with ioo ccm of an approximately 6% gelatin solution of approximately 4 ° C. mixed; 8 cc of this Solution are poured onto a leveled 9 X i 2 cm glass plate and equally distributed. After the gelatine has solidified, it is dried at around 32 ° C. Such a filter is for accurate reproduction on a panchromatic Layer suitable.

Claims (2)

PATENT CLAIMS: i. Light filter consisting of in colloid layers distributed brines of inorganic substances. 2. Light filter according to claim i, characterized in that that brine of inorganic substances with their own color are used.