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US1003720A - Manufacture of screens or colored surfaces for color photography. - Google Patents

Manufacture of screens or colored surfaces for color photography. Download PDF

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US1003720A
US1003720A US43459908A US1908434599A US1003720A US 1003720 A US1003720 A US 1003720A US 43459908 A US43459908 A US 43459908A US 1908434599 A US1908434599 A US 1908434599A US 1003720 A US1003720 A US 1003720A
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colored
greasy
color
screens
varnish
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US43459908A
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Louis Dufay
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Plaques & Produits Dufay SA
Plaques & Produits Dufay SA Des
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Plaques & Produits Dufay SA Des
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03FPHOTOMECHANICAL PRODUCTION OF TEXTURED OR PATTERNED SURFACES, e.g. FOR PRINTING, FOR PROCESSING OF SEMICONDUCTOR DEVICES; MATERIALS THEREFOR; ORIGINALS THEREFOR; APPARATUS SPECIALLY ADAPTED THEREFOR
    • G03F7/00Photomechanical, e.g. photolithographic, production of textured or patterned surfaces, e.g. printing surfaces; Materials therefor, e.g. comprising photoresists; Apparatus specially adapted therefor
    • G03F7/0005Production of optical devices or components in so far as characterised by the lithographic processes or materials used therefor
    • G03F7/0007Filters, e.g. additive colour filters; Components for display devices

Definitions

  • ThlS invention relates-firstly, to chrmatic screens or filters of absolute transparency and perfect luminosity, with selective divisions arranged side b side and having any desired shape, whet er regular or irregular, .geometrical or non-geometrical, and not constituted by foreign substances ains of starch, colored printers ink, etc.
  • the homogeneity of the screening layer enabling the prints to be seen not only by transparency, but also by reflection, and secondly, to the processes for manufacturing the screens in question, that is, to a process consisting in a systematic alternation of a special varnish with a suit- ,able greasy material and suitably selected colored solutions, b means of which can be obtained, by super cial rotection and successive partitioning of t e colors, a screen with colored divisions arranged side by side, dyed in a homczgeneous layer of gelatin.
  • Figures 1 an 2 show in end view and in plan respectively the first stage of the rocess.
  • F 3 shows the second stage.
  • ig. 4 shows t e third stage.
  • Figs. 5 and 6 res ectively in end view and in plan, show t e fourth stage.
  • Fi 7 shows the fifth sta c.
  • Fig. 8 shows t e sixth stage.
  • Fig. 9 s ows the seventh stage.
  • Figs. 10 to 15 show six patterns in which the colors can be distributed.
  • the explanation screen comprising t 'ven below relates to a co selective colors
  • the screen can have a larger number of suitably chosen selective colors.
  • the transparent support a (glass, film, etc.) intended to form the support for the screen, having been coated with a thin layer 5 of gelatin or of other suitable substance, is submitted to the following operations 1.
  • a suitably chosen fraction of its surface (for instance two-thirds) is covered with greasy material a of any desired fluiditg, a well known printing process such as p etc-printing, typography, alf-tone printing, etc., or even pulverizm or sprayin bemgused for 'the purpose.
  • T e part playe by t e said greasy material a is simpl to constitute a temporary reserve, in the orm of lines, points, ains, etc., either regular or irregular, or avin any eometmc or irregular shape.
  • FIGs. 1 and 2 show, by way of example, the application of the greasy material in the form of vertical equldistant lines 0 c indicated by vertical hatching.
  • the whole surface is varnished with a varnish e (Fig. 4) fulfilling the two following conditions: a. Its solvent must'not dissolve the greasy material used. 5. Its resin or gum resin must be insoluble in a solvent of the greasy material used, and incapable of becoming incorporated into, or combining with, the said material. For instance, if the greasy material used contains linseed oil, and the varnish is composed of gum lac previously exhausted by means of ether and dissolved in alcohol which is a solvent of the varnish, the alcohol must not dissolve the greasy material, and on evaporating must leave on the whole surface a thin layer of gum lac.
  • Such a varnish adheres strongly to gelatin, exactly at the pointfihere the color was able to adhere, and fo s an impermeable insulating layer. On the contrary, it does not coat the greasy material 0, so that it is sufficient to cause a solvent of the latter material such as for instance turpentine essence or benzin to act and to apply a little friction in order to detach the varnish at these points and to dissolve the material itself, the result being to expose the gelatin 1) at every point at which it is protected by the first printing. After the said operation two-thirds b of the free surface of the screen will be free, and a third 0 painted orange, the said color being covered with an impermeable varnish 6 (Figs. 5 and 6).
  • Half the tot-a1 surface is covered with greasy material, either in the form of horizontal lines f as shown in Fig. 7, or in any other form, whereupon the surface remaining free is dyed, for instance violet w, the said surface in the resent case consisting of rectangles w to limited on the one hand by the greasy material just deposited, and on the other hand by the varnish covering the orange color already applied.
  • greasy material either in the form of horizontal lines f as shown in Fig. 7, or in any other form, whereupon the surface remaining free is dyed, for instance violet w, the said surface in the resent case consisting of rectangles w to limited on the one hand by the greasy material just deposited, and on the other hand by the varnish covering the orange color already applied.
  • the colored surfaces being covered with a varnish, there will only remain one-third of colorless surface where the gelatin is exposed, the said third being dyed by simple imbibition with the third color '0 (green, short dotted hatching Fig. 9).
  • Thewhole surface is then cleaned by means of a solvent for varnish, for instance alcohol, so that the screen will be constituted merely by the layer of the original gelatin ,dyed on the whole of its surface without superposition or uncolored space, the primary colors alternating with a perfect regularity.
  • the homogeneous colored layer thus obtained is then preserved by means of a colorless and neutral impermeable layer.
  • the screen is then ready for receiving the sensitive layer.
  • Figs. 10 to 15 show a few examples of the numerous forms in which the colors can be distributed.
  • the colors are .arranged side by side in the shape of square dots.
  • one or more of the colors are in the shape of round dots, covering one or two-thirds of the surface, the other twothirds or the other third, being covered with polygonal dots.
  • the colors are arranged side by side in the shape of polygonal points.
  • the colors are irregularly divided into squares and trian les.
  • Fig. 14 the three colors are also divlded by thirds into polygonal points.
  • chromatic screen or filter thus prepared constitutes a new product characterized by the absolute homogeneousness of its constitution, which distinguishes it completely from anything hitherto produced or even suggested.
  • each coL- ored point of the screen being produced by simple dyeing of the substantive material (constituted by gelatin), without addition of foreign colored particles, colored grains, greasy or other material, it follows that the material in question constitutes itself a filter, Without any modification of the thickness or of the transparency which remains the same as that of the glass.
  • Luminous rays are in no way perturbed, that is to say, there is no reflection or refraction, as
  • the selective divisions are generally colored orange, ber of colors can be increased to four or more, if it should be desired.
  • the fineness of the divisions can be easily reduced to a point at which the filter becomes imperceptible to the naked eye.
  • the selective divisions are exactly side by side, that is to say, there is no intermediate space between them that would remain inactive and consequently injurious to the final result.
  • the said dyed divisions can have any desired shape, such as lines or points, squares, rectangles, regular or irregular,'etc. Regular geometric figures are preferred, owing to the facility which they afi'ord for covering with each of the colors an accurately known area of the plate.
  • the distribution of the colored points on the screen is absolutely regular, without agglomeration of the selective divisions of one and the same color, or without any gap that could modify locally the equilibrium green and violet, but the numof the selective system, on the contrary there is a perfect alternation of the orange, green and violet.
  • the exact quantitative distribution of colors on the screen and the uniformit of the arrangement of the points result in producing on the eye a very homogeneous chromatic sensation, which is as near white as it is possible to obtain, without any spots, stri es or defects of any pre dominant color belng perceived.
  • the times of exposure can be reduced to a minimum, owing to the possibility of giving to the selective divisions a coloring of the exact intensity required for making a. good selection, without havim to fear the insufliciency at the outline of the colored points.
  • Screens obtained in the manner described can be sensitized either direct for the purpose of obtaining prints in colors adhering to the net work, the different layers of the plate-screen being glass, colored gelatin, impermeable layer, silver bromid; or they can be used as independent screens arranged in contact with the sensitive layer of an ordinary panchromatic plate, the different layers of the whole being glass, colored gela-,
  • the plate is separated from the screen for being submitted to all the operations of development, inversion, etc., and then carefully registered as. regards the screen.
  • the screens in question can be used for obtaining photographic prints visible by reflection on paper or any other support. These screens being, in fact, constituted by a perfectly homogenous layer, without addition of foreign elements, their general intensity can be very .easily reduced in a suitable proportion for obtaining, when looking at the print b reflection, a good impression of whites an light portions of the photographic print obtained. It is sufiicient for the purpose to produce, by rubbing, a slight wearing off of the colored gelatin which, owing to the homogeneousness of the layer, acts uniformly on all the colors. Screens intended to be treated in that manner must be prepared on films provided on one side with the-emulsion, and on the other with the free state or being temporarily fixed on glass in order to be subsequently transferred to paper or to any other final opaque support of the print.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Printing Methods (AREA)

Description

L. DUFAY. EENS 0B. COLORED SURFACES FOR COLOR PHOTOGR APPLICATION FILED MAY 2a, 1909.
APHY.
MANUFACTURE or sea Patented Sept is a specificatlon.
UNITED STATES PATENT OFFICE.
LOUIS DUFAY, OF GHAN'IILLY,
MANUFACTURE OF SCREENS FRANCE, ASSIGNOR 'ro socni'rit ANONYME nns PLAQUIES a rnonurrs nursr, or CHANTILLY, FRANCE.
OB COLORED SURFACES FOR COLOR PHOTOGRAPHY.
Specification of Letters Patent.
Patented Sept. 19, 1911.
Application filed Kay 23, 1908. Serial No. 484,599.
To all whom it may concern:
Be it known that I, Louis DUFAY, a citizen of the French Republic, and a resident of Chantilly, France, have invented certain new and useful Improvements in the Manufacture of Screens or Colored Surfaces for Color Photography, of which the following ThlS invention relates-firstly, to chrmatic screens or filters of absolute transparency and perfect luminosity, with selective divisions arranged side b side and having any desired shape, whet er regular or irregular, .geometrical or non-geometrical, and not constituted by foreign substances ains of starch, colored printers ink, etc.),
but by colored divisions dyed side by side,
. without superposition and without uncolored spaces between the divisions, in a homogeneone layer of gelatin, the homogeneity of the screening layer enabling the prints to be seen not only by transparency, but also by reflection, and secondly, to the processes for manufacturing the screens in question, that is, to a process consisting in a systematic alternation of a special varnish with a suit- ,able greasy material and suitably selected colored solutions, b means of which can be obtained, by super cial rotection and successive partitioning of t e colors, a screen with colored divisions arranged side by side, dyed in a homczgeneous layer of gelatin.
' Figures 1 an 2 show in end view and in plan respectively the first stage of the rocess. F 3 shows the second stage. ig. 4: shows t e third stage. Figs. 5 and 6 res ectively in end view and in plan, show t e fourth stage. Fi 7 shows the fifth sta c. Fig. 8 shows t e sixth stage. Fig. 9 s ows the seventh stage. Figs. 10 to 15 show six patterns in which the colors can be distributed.
Procesa-The accompanying considerably modified drawing represents a fragment of screen at the various stages of its preparation, and various constructions of the said screen.
The explanation screen comprising t 'ven below relates to a co selective colors, and
is given merely by way of example, as the screen can have a larger number of suitably chosen selective colors.
The transparent support a (glass, film, etc.) intended to form the support for the screen, having been coated with a thin layer 5 of gelatin or of other suitable substance, is submitted to the following operations 1. A suitably chosen fraction of its surface (for instance two-thirds) is covered with greasy material a of any desired fluiditg, a well known printing process such as p etc-printing, typography, alf-tone printing, etc., or even pulverizm or sprayin bemgused for 'the purpose. T e part playe by t e said greasy material a is simpl to constitute a temporary reserve, in the orm of lines, points, ains, etc., either regular or irregular, or avin any eometmc or irregular shape. Its co or is, t erefore immaterial, it is preferably black, so as to enable the work to be more easily observed. Figs. 1 and 2 show, by way of example, the application of the greasy material in the form of vertical equldistant lines 0 c indicated by vertical hatching.
2. The surface (1 which has been left free (Figs. 1 and 2), is dyed by imbibition, between the elements of greasy material, with one of the coloring solutions, for instance orange 0 (Fig. 3).
3. The whole surface is varnished with a varnish e (Fig. 4) fulfilling the two following conditions: a. Its solvent must'not dissolve the greasy material used. 5. Its resin or gum resin must be insoluble in a solvent of the greasy material used, and incapable of becoming incorporated into, or combining with, the said material. For instance, if the greasy material used contains linseed oil, and the varnish is composed of gum lac previously exhausted by means of ether and dissolved in alcohol which is a solvent of the varnish, the alcohol must not dissolve the greasy material, and on evaporating must leave on the whole surface a thin layer of gum lac. Such a varnish adheres strongly to gelatin, exactly at the pointfihere the color was able to adhere, and fo s an impermeable insulating layer. On the contrary, it does not coat the greasy material 0, so that it is sufficient to cause a solvent of the latter material such as for instance turpentine essence or benzin to act and to apply a little friction in order to detach the varnish at these points and to dissolve the material itself, the result being to expose the gelatin 1) at every point at which it is protected by the first printing. After the said operation two-thirds b of the free surface of the screen will be free, and a third 0 painted orange, the said color being covered with an impermeable varnish 6 (Figs. 5 and 6).
4. Half the tot-a1 surface is covered with greasy material, either in the form of horizontal lines f as shown in Fig. 7, or in any other form, whereupon the surface remaining free is dyed, for instance violet w, the said surface in the resent case consisting of rectangles w to limited on the one hand by the greasy material just deposited, and on the other hand by the varnish covering the orange color already applied.
5. The surface is again varnished, then the greasy material is dissolved and removed as described in paragraph 3. There remains then (Fig. 8) one-third 0 of the surface colored orange (continuous hatching), another third w colored violet (long dotted hatching) free.
The colored surfaces being covered with a varnish, there will only remain one-third of colorless surface where the gelatin is exposed, the said third being dyed by simple imbibition with the third color '0 (green, short dotted hatching Fig. 9). Thewhole surface is then cleaned by means of a solvent for varnish, for instance alcohol, so that the screen will be constituted merely by the layer of the original gelatin ,dyed on the whole of its surface without superposition or uncolored space, the primary colors alternating with a perfect regularity. The homogeneous colored layer thus obtained is then preserved by means of a colorless and neutral impermeable layer. The screen is then ready for receiving the sensitive layer.
Figs. 10 to 15 show a few examples of the numerous forms in which the colors can be distributed. In Fig. 10 the colors are .arranged side by side in the shape of square dots. In Fig. 11 one or more of the colors are in the shape of round dots, covering one or two-thirds of the surface, the other twothirds or the other third, being covered with polygonal dots. In Fig. 12 the colors are arranged side by side in the shape of polygonal points. In Fig. 13 the colors are irregularly divided into squares and trian les. In Fig. 14 the three colors are also divlded by thirds into polygonal points.
and the third portion 6.
The various above mentioned forms can be combined as shown in Fig. 15 in which there are the vertical lines of Fig. 9, and the combination ofthe round and polygonal dots of Fig. 14, the limitation of the figures always being effected by the means hereinbefore described.
' By repeating a sufiicient number of times the operations of rinting on the greasy material, of varnishing and of dyeing hereinbefore described, it will be possible to obtain a screen with any number of selective colors. In short, the arrangement side by side of n colors is obtained. 1. By protecting first of all a portion of the plate by greasy'material alone, for the first color. 2. By means of greasy material and aspecial varnish for the second, third n-lst color. 3. By means of this special varnish alone,without any greasy material for the nth and last color.
Product-The chromatic screen or filter thus prepared constitutes a new product characterized by the absolute homogeneousness of its constitution, which distinguishes it completely from anything hitherto produced or even suggested. In fact, each coL- ored point of the screen being produced by simple dyeing of the substantive material (constituted by gelatin), without addition of foreign colored particles, colored grains, greasy or other material, it follows that the material in question constitutes itself a filter, Without any modification of the thickness or of the transparency which remains the same as that of the glass. Luminous rays are in no way perturbed, that is to say, there is no reflection or refraction, as
they have not got to pass through hetero-.
geneous media. I
The selective divisions are generally colored orange, ber of colors can be increased to four or more, if it should be desired. The fineness of the divisions can be easily reduced to a point at which the filter becomes imperceptible to the naked eye. The selective divisions are exactly side by side, that is to say, there is no intermediate space between them that would remain inactive and consequently injurious to the final result. The said dyed divisions can have any desired shape, such as lines or points, squares, rectangles, regular or irregular,'etc. Regular geometric figures are preferred, owing to the facility which they afi'ord for covering with each of the colors an accurately known area of the plate.
The distribution of the colored points on the screen is absolutely regular, without agglomeration of the selective divisions of one and the same color, or without any gap that could modify locally the equilibrium green and violet, but the numof the selective system, on the contrary there is a perfect alternation of the orange, green and violet. The exact quantitative distribution of colors on the screen and the uniformit of the arrangement of the points, result in producing on the eye a very homogeneous chromatic sensation, which is as near white as it is possible to obtain, without any spots, stri es or defects of any pre dominant color belng perceived. The exact fundamental coloring of each of the selective divisions can be regulated with the greatest facility, and the total area of each colored point, in spite of its extreme smallness, has the same selective properties, without weakening at the edges or exaggeration in the center, as is the case with lines formed by colored greasy material. The result is an unsurpassed reliability in the selection, and an effect which owing to the richness and vivacity of the shades, still enhances the charm of accuracy.
The times of exposure can be reduced to a minimum, owing to the possibility of giving to the selective divisions a coloring of the exact intensity required for making a. good selection, without havim to fear the insufliciency at the outline of the colored points.
Screens obtained in the manner described can be sensitized either direct for the purpose of obtaining prints in colors adhering to the net work, the different layers of the plate-screen being glass, colored gelatin, impermeable layer, silver bromid; or they can be used as independent screens arranged in contact with the sensitive layer of an ordinary panchromatic plate, the different layers of the whole being glass, colored gela-,
tin, silver bromid, glass. In the latter case the plate is separated from the screen for being submitted to all the operations of development, inversion, etc., and then carefully registered as. regards the screen.
The screens in question can be used for obtaining photographic prints visible by reflection on paper or any other support. These screens being, in fact, constituted by a perfectly homogenous layer, without addition of foreign elements, their general intensity can be very .easily reduced in a suitable proportion for obtaining, when looking at the print b reflection, a good impression of whites an light portions of the photographic print obtained. It is sufiicient for the purpose to produce, by rubbing, a slight wearing off of the colored gelatin which, owing to the homogeneousness of the layer, acts uniformly on all the colors. Screens intended to be treated in that manner must be prepared on films provided on one side with the-emulsion, and on the other with the free state or being temporarily fixed on glass in order to be subsequently transferred to paper or to any other final opaque support of the print.
\V hat I claim as my invention and desire to secure by Letters Patent is 1. Process for the manufacture of homogeneous polychrome screens for color photography formed of color elements juxtaposed Without superposition or uncolored spaces, colored in the mass of the supporting layer, consisting in the following operations:covering in lines of greasy material the surface of a layer of transparent material adapted to be colored by imbibition, so as to leave free the surface destined to receive the first tint, then dyeing by imbibition the part left free, covering the whole with a varnish having a resinous base which only adheres to the colored part so as to protect it from any subsequent coloration, said varnish being of such composition that the solvent of the resin does not dissolve the greasy material while the said resin is insoluble in a solvent of the greasy material and not adapted to combine with or become incorporated in the said greasy material, then removing the varnish by friction where it covers the greasy material, removing the greasy material, by a suitable solvent, making a second similar application of greasy material, but in lines which are in a direction which crosses the direction of the lines of the first application, then coloring the free surface by imbibition with the second color, varnishing, removing the varnish over the greasy lines, dissolvin out the greasy lines and finally colorin t e remaining surface by imbibition wlth the third color.
2. Process for the manufacture of homogeneous polychrome screens for color photography formed of color elements juxtaposed without su erposition or uncolored spaces, colored in t e mass of the supporting layer, consisting in the following operations covering in lines of greasy material the surface of a layer of transparent material adapted to be colored by imbibition, so as to leave free the surface destined to receive the first tint, then dyeing by imbibition the part left free, covering the whole with a varnish having a resinous base which only adheres to the colored part so as to rotect it from any subsequent coloration, said varnish being of such composition that the solvent of the resin does not dissolve the greasy material'while the said resin is insoluble in a solvent of the greasy material and not adapted to combine with or become incorporated in the said reasy material, then removing the varnish y friction where it cov-. ers the greasy material, removing the greasy material by a suitable solvent, making a operation for each additional color which second similar application of greasy mait is desired to add to the screen. terial, but in lines which are in a direction In testimony whereof I have signed my which crosses the direction of the lines of name to this specification in the presence of 5 the first application, then coloring the free two subscribing witnesses.
surface by imbibition with the second color, LOUIS DUFAY varnishing, removing the varnish over the greasy lines, dissolving out the greasy lines, Witnesses: coloring the remaining surface by imbibi- H. O. 00x12, 10 tion with the third color, and repeating this GEORGES BONNEUIL.
US43459908A 1908-05-23 1908-05-23 Manufacture of screens or colored surfaces for color photography. Expired - Lifetime US1003720A (en)

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4108654A (en) * 1974-05-06 1978-08-22 Xerox Corporation Color electrophotographic process employing a document screen
WO1980001614A1 (en) * 1979-02-02 1980-08-07 Eastman Kodak Co Imaging elements containing microvessels and processes for forming images therewith
US4375507A (en) * 1980-09-08 1983-03-01 Eastman Kodak Company Imaging with nonplanar support multicolor filter elements
US4387154A (en) * 1980-09-08 1983-06-07 Eastman Kodak Company Receivers with nonplanar support elements
US4387146A (en) * 1980-09-08 1983-06-07 Eastman Kodak Company Multicolor filters with nonplanar support elements
US4411973A (en) * 1980-10-14 1983-10-25 Eastman Kodak Company Elements containing ordered wall arrays and processes for their fabrication
US4463074A (en) * 1980-10-14 1984-07-31 Eastman Kodak Company Elements containing ordered wall arrays
US4764670A (en) * 1986-06-20 1988-08-16 Eastman Kodak Company Color filter arrays
US4876167A (en) * 1987-08-20 1989-10-24 Eastman Kodak Company Color filter array containing a photocrosslinked polymeric mordant
US9460665B2 (en) 2013-08-11 2016-10-04 NanoMedia Solutions Inc. Nano-media information carrier based on pixelated nano-structures combined with an intensity control layer

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4108654A (en) * 1974-05-06 1978-08-22 Xerox Corporation Color electrophotographic process employing a document screen
WO1980001614A1 (en) * 1979-02-02 1980-08-07 Eastman Kodak Co Imaging elements containing microvessels and processes for forming images therewith
US4362806A (en) * 1979-02-02 1982-12-07 Eastman Kodak Company Imaging with nonplanar support elements
US4375507A (en) * 1980-09-08 1983-03-01 Eastman Kodak Company Imaging with nonplanar support multicolor filter elements
US4387154A (en) * 1980-09-08 1983-06-07 Eastman Kodak Company Receivers with nonplanar support elements
US4387146A (en) * 1980-09-08 1983-06-07 Eastman Kodak Company Multicolor filters with nonplanar support elements
US4411973A (en) * 1980-10-14 1983-10-25 Eastman Kodak Company Elements containing ordered wall arrays and processes for their fabrication
US4463074A (en) * 1980-10-14 1984-07-31 Eastman Kodak Company Elements containing ordered wall arrays
US4764670A (en) * 1986-06-20 1988-08-16 Eastman Kodak Company Color filter arrays
US4876167A (en) * 1987-08-20 1989-10-24 Eastman Kodak Company Color filter array containing a photocrosslinked polymeric mordant
US9460665B2 (en) 2013-08-11 2016-10-04 NanoMedia Solutions Inc. Nano-media information carrier based on pixelated nano-structures combined with an intensity control layer

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