Zoechrome

1920

|

T.A. Mills

Subtractive 3 color: Multi-layer printing

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Credit: Cinémathèque française, conservatoire des techniques, Paris.
Source: Coe, Brian (1981): The History of Movie Photography. Westfield, N.J.: Eastview Editions.
Credit: Collection Gert Koshofer, Bergisch Gladbach (Germany).

Worel’s bleach-out process

1899

|

Karl Worel

Subtractive 3 color: dye destruction process, bleach-out, still photography

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Wolff-Heide

1924

|

Emil Wolff-Heide

|

Germany

additive three-color: Integrated filters and rotary filter

Much like many other additive processes, the Wolff-Heide system was based on three black and white color separations printed consecutively on one film strip and projected through a rotary filter attached to the projector. However, the biggest ...

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Warner-Powrie

1924

|

John H. Powrie

Additive 3 color: Line screen

“The Warner-Powrie process patented in 1905 was the earliest commercial process using a screen made with bichromated colloid. A glass plate was thinly coated with bichromated gelatin or fish glue and exposed to light through a screen having ...

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1 Image

Vivex

1928

|

Dr. Douglas Arthur Spencer (Color Photographs Limited of London)

Subtractive 3 color: pigment process, still photography

“Vivex prints were introduced by Color Photographs Limited of London in 1928. One of the most important features of this printing method, invented by Douglas Arthur Spencer (1902–1980), was the introduction in 1929 of cellophane, instead of ...

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Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 105.

1 Image

Vitacolor

1930

|

(Vitacolor Company)

Subtractive 2 color: Single coated

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Versicolor-Dufay

1917

|

Louis Dufay (Versicolor)

Additive 3 color: line screen plate, still photography and film

“The most successful of all the screen processes was the one initiated by Louis Dufay. Today the product is known as Dufaycolor, but it was first introduced about 1910 as the Dioptichrome plate. The first Dufay patents were assigned to an ...

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Vericolor

1933

|

(Vericolor Inc.)

Subtractive 2 color: unknown

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Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Magic Isle.

40 Images

Uvatype

1929

|

Arthur Traube (Uvachrome)

Subtractive 3 color: dye imbibition process, still photography

“Uvatype was yet another variation of the dye imbibition process, introduced by the Uvachrome Company of Germany in 1929 (Fig. 4.12). Its inventor, the German chemist Arthur Traube, worked diligently to improve the then-available imbibition ...

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Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 138.

1 Image

Uto Paper 1906–1911, after 1911 Utocolor Paper, after 1912 Utocolor-Rapid-Paper

1906

|

John Henry Smith, Waldemar Merckens (Utocolor Company)

Subtractive 3 color: dye destruction process, bleach-out, still photography

“In 1906 John Henry Smith (1860–1917) and Waldemar Merckens commercially introduced a collodion paper impregnated with fugitive yellow, magenta, and cyan dyes. They called it Uto paper, after a range of mountains near Zurich (Johnson 1917: ...

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Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 209.
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 211.

2 Images

Urban-Joy Process, improvement of Kinemacolor, later called Kinekrom

1916

|

Henry W. Joy (Urban)

Additive 2 color: Rotary filter

“In the design of apparatus Urban was assisted after 1905 by Henry W. Joy. The Urban-Joy perforator appeared in 1906. The Urban-Joy anti-firing device, a shutter to prevent the firing of inflammable film when projectors broke down, was another ...

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Unidentified Processes

1900

Various

Photographs of unidentified color film technologies. Several different principles and times. Feel free to contact us if you can help identifying them!

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Unidentified Processes from the Kodak Film Samples Collection and the Cinematography Collection. Credit: National Science and Media Museum Bradford. Photographs by Barbara Flueckiger in collaboration with Noemi Daugaard, SNSF Film Colors.
Unidentified Processes from the Kodak Film Samples Collection and the Cinematography Collection. Credit: National Science and Media Museum Bradford. Photographs by Barbara Flueckiger in collaboration with Noemi Daugaard, SNSF Film Colors.
Unidentified Processes from the Kodak Film Samples Collection and the Cinematography Collection. Credit: National Science and Media Museum Bradford. Photographs by Barbara Flueckiger in collaboration with Noemi Daugaard, SNSF Film Colors.

298 Images in 5 Galleries

Ulysse

1908

|

Pierre Ulysse

|

France

Two, three or four color color additive process: multiple lenses

The process relied on two-, three- or even four-color selections being superimposed on the screen. On the positive, two, three or four images of reduced dimensions were printed on a single frame with a longitudinal and lateral distance corresponding ...

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UltraStable Color Systems

1992

|

Charles Berger, Richard Newmark Kauffman

Subtractive 4 color: pigment process, still photography

“Berger then started to work with the master carbro printer Richard Newmark Kauffman (1916−1998), and together they founded Ultrastable Color Systems, Inc. In 1992 they introduced presensitized UltraStable material for four-color carbon ...

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Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 95.

1 Image

Ufacolor

1931

|

Kurt Waschneck (Afifa)

Subtractive 2 color: Bi-pack, mordant toning

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Magnification of an image area. Source: Eggert, John (1932): Kurzer Überblick über den Stand der Farbenkinematographie. Bericht über den VIII. Internationalen Kongress für wissenschaftliche und angewandte Photographie, Dresden 1931, pp. 214-222. Leipzig: J. A. Barth.
Color chart. Credit: Guido Seeber Nachlass, Deutsche Kinemathek, Berlin. Source: Goergen, Jeanpaul (2010): Rotorange und blaugrün. Das Zweifarbenverfahren Ufacolor 1931-1940. In: Filmblatt, no. 43, pp. 77-92.
Credit: Guido Seeber Nachlass, Deutsche Kinemathek, Berlin. Source: Goergen, Jeanpaul (2010): Rotorange und blaugrün. Das Zweifarbenverfahren Ufacolor 1931-1940. In: Filmblatt, no. 43, pp. 77-92.
Source: Eggert, John (1932): Kurzer Überblick über den Stand der Farbenkinematographie. Bericht über den VIII. Internationalen Kongress für wissenschaftliche und angewandte Photographie, Dresden 1931, pp. 214-222. Leipzig: J. A. Barth.
Credit: Bundesarchiv-Filmarchiv, photo: Marian Stefanowski. Source: Goergen, Jeanpaul (2010): Rotorange und blaugrün. Das Zweifarbenverfahren Ufacolor 1931-1940. In: Filmblatt, no. 43, pp. 77-92. Film: Bunte Tierwelt. Studien in Hagebecks Tierpark in Stellingen (1931).
Credit: Bundesarchiv-Filmarchiv, photo: Marian Stefanowski. Source: Goergen, Jeanpaul (2010): Rotorange und blaugrün. Das Zweifarbenverfahren Ufacolor 1931-1940. In: Filmblatt, no. 43, pp. 77-92. Film: Karneval (1936).
Credit: Bundesarchiv-Filmarchiv, photo: Jeanpaul Goergen. Source: Goergen, Jeanpaul (2010): Rotorange und blaugrün. Das Zweifarbenverfahren Ufacolor 1931-1940. In: Filmblatt, no. 43, pp. 77-92. Film: Bunte Fischwelt (1936).
Credit: Bundesarchiv-Filmarchiv, photo: Marian Stefanowski. Source: Goergen, Jeanpaul (2010): Rotorange und blaugrün. Das Zweifarbenverfahren Ufacolor 1931-1940. In: Filmblatt, no. 43, pp. 77-92. Film: Karneval (1936).
Credit: Deutsches Filminstitut DIF (Vicas Nachlass), photo: Jeanpaul Goergen. Source: Goergen, Jeanpaul (2010): Rotorange und blaugrün. Das Zweifarbenverfahren Ufacolor 1931-1940. In: Filmblatt, no. 43, pp. 77-92. Film: Potsdam (1934).
Credit: Bundesarchiv-Filmarchiv, photo: Marian Stefanowski. Source: Goergen, Jeanpaul (2010): Rotorange und blaugrün. Das Zweifarbenverfahren Ufacolor 1931-1940. In: Filmblatt, no. 43, pp. 77-92. Film: Farben machen froh (1938).
Magnification 5x. Credit: photomicrograph by Silvana Konermann.
Magnification 10x. Credit: photomicrograph by Silvana Konermann.
Magnification 20x. Credit: photomicrograph by Silvana Konermann.
Source: Eggert, John (1932): Kurzer Überblick über den Stand der Farbenkinematographie. In:Bericht über den VIII. Internationalen Kongress für wissenschaftliche und angewandte Photographie, Dresden 1931, pp. 214-222. Leipzig: J. A. Barth.
Magnification of an image area. Source: Eggert, John (1932): Kurzer Überblick über den Stand der Farbenkinematographie. In:Bericht über den VIII. Internationalen Kongress für wissenschaftliche und angewandte Photographie, Dresden 1931, pp. 214-222. Leipzig: J. A. Barth.
Reflection on Ufacolor film. Source: Eggert, John (1932): Kurzer Überblick über den Stand der Farbenkinematographie. In:Bericht über den VIII. Internationalen Kongress für wissenschaftliche und angewandte Photographie, Dresden 1931, pp. 214-222. Leipzig: J. A. Barth.
An opened splice of an Ufacolor positive shows the two colors used in the process. Credit: David Pfluger. Source: David Pfluger’s collection.

136 Images in 7 Galleries

Trucolor 3 color

1949

|

(Consolidated Film Industries)

Subtractive 3 color: Color separation on DuPont Release Positive Film

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Magic Fire (USA 1955, William Dieterle), item no. DIF 2.04.35.14. Credit: Deutsches Filminstitut DIF. Photograph of the safety print by Barbara Flueckiger.

30 Images in 1 Gallery

Trucolor 2 color

1947

|

(Consolidated Film Industries)

Subtractive 2 color: Bi-pack, double-coated with dye couplers

“By the 1940s, most of the two-colour subtractive processes, apart from Cinecolor, were obsolete. The widespread use of the high-quality Technicolor process showed up the serious deficiencies in the simpler methods. The only significant new ...

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Trichromatic vision

1802

|

Thomas Young

Theory: Color vision

Theory of trichromatic vision proposed by Thomas Young.

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Triadochrome

1921

|

J. F. Shepherd

Subtractive 3 color: dye mordanting and silver toning process, still photography

“After the war, in 1921, J. F. Shepherd introduced in England a printing method called the Triadochrome Color Process, which was very similar to Hamburger’s Polychromide. To make a print, a cyan impression obtained from an iron-toned ...

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Traube / Uvachrome

1922

|

Arthur Traube (Uvachrom)

Subtractive 3 color: mordanting, dye transfer, wash-off relief, still photography and film

“In 1916 Traube found that copper toning baths were especially suitable for dye mordanting and patented the Uvachrome process. At the time, Germany was at war with most of Europe, and little commercial progress was made until the end of ...

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Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 103.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 277.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 138.

3 Images

Traube / Diachromie

1906

|

Arthur Traube

Subtractive 3 color: mordant toning, still photography and film

“In the imbibition process, a dye image is transferred from a gelatin relief image to a receiving layer made either of paper or film. Charles Cros described this method of ‘hydrotypie’ transfer printing in 1880 and suggested it ...

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Toning / metallic toning (French: virage, German: Tonung)

1896

Applied colors: replacement of silver, still photography and film

In contrast to tinting, toning is not the simple immersion of a film into a dye bath but involves a chemical reaction converting the silver image. In this reaction the neutral silver image in the emulsion of the positive film is replaced by one consisting of colored metal compounds. These were usually iron ferrocyanide (Prussian Blue) for blue, copper ferrocyanide for red/brown, silver sulfide for sepia or rarely uranium ferrocyanide for reddish brown. Toning had been used in still photography before. But since film was projected on the screen it required translucent toning compounds.

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Hongarije (FRA 1926, Anonymous). Credit: EYE Film Museum. Photographs of the tinted, toned and stencil colored nitrate print by Olivia Kristina Stutz, ERC Advanced Grant FilmColors.
Virages sur films à support teinté Pathé, Film teinté lavande (virage bleu) lavender tinted stock with blue toning, the same image from a different copy of the book, combination of tungsten backlight with daylight toplight. Photograph by Barbara Flueckiger. Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé. [quote id='16']
Photomicrograph, 25x. Credit: Norbert Wey, Institute of Pathology, University of Zurich.
Photomicrograph, 50x. Credit: Norbert Wey, Institute of Pathology, University of Zurich.
Photomicrograph, 100x. Credit: Norbert Wey, Institute of Pathology, University of Zurich.
Toning samples from the Tinting and Toning Workshop by Ulrich Ruedel, Seminar "Materiality of Film" by Barbara Flueckiger and Bregt Lameris, Department of Film Studies, University of Zurich, in collaboration with Lichtspiel / Kinemathek Bern, David Landolf and Brigitte Paulowitz.
Toning samples from the Tinting and Toning Workshop by Ulrich Ruedel, Seminar "Materiality of Film" by Barbara Flueckiger and Bregt Lameris, Department of Film Studies, University of Zurich, in collaboration with Lichtspiel / Kinemathek Bern, David Landolf and Brigitte Paulowitz.

1550 Images in 63 Galleries

Tinting by application of varnish

1905

|

no record of inventor available

Applied colors: Tinting

Very little information is available on this very rare process. Instead of immersion into a dye-bath the positive print was coated uniformly with a varnish. This technique can be identified by the lack on dyes in the perforation area and by the ...

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Credit: Paolo Cherchi Usai. Source: Cherchi Usai, Paolo (2000): Silent Cinema. London: BFI.

1 Image

Tinting (French: teintage, German: Virage)

1896

Applied colors: Dyed gelatin

For tinting, the positive print is immersed into a variety of dye baths, scene by scene. To this end, the print has to be cut into the corresponding fragments and reassembled after the dyeing process. The dye homogeneously attaches over the entire image’s gelatin including the perforation area. Usually synthetic dyes were dissolved in a weak acid solution to form a chemical bond with the gelatin.

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Salomé (USA 1922, Charles Bryant). Credit: George Eastman Museum. Photographs of the tinted, toned and Handschiegl nitrate print by Barbara Flueckiger.
Photograph by Barbara Flueckiger. Source: Agfa Kine-Handbuch. Berlin: Actien-Gesellschaft für Anilin-Fabrikation. (around 1927, estimated).
See Mazzanti (2009: 71). Credit: Cineteca di Bologna. Film: Lyda Borelli in Malombra (Italy, 1917).
As coloured for South America, see Mazzanti (2009: 71). Credit: Cineteca di Bologna.
As coloured for the domestic Italian market, see Mazzanti (2009: 71). Credit: Cineteca di Bologna.
Photomicrograph, 25x. Credit: Norbert Wey, Institute of Pathology, University of Zurich.
Photomicrograph, 50x. Credit: Norbert Wey, Institute of Pathology, University of Zurich.
Photomicrograph, 50x. Credit: Norbert Wey, Institute of Pathology, University of Zurich.
Credit: Lichtspiel / Kinemathek Bern. Film: Dagli Appennini alle Ande (ITA 1916, Umberto Paradisi). Photograph by Barbara Flueckiger.
Credit: Lichtspiel / Kinemathek Bern. Film: Dagli Appennini alle Ande (ITA 1916, Umberto Paradisi). Photograph by Barbara Flueckiger.
Credit: Lichtspiel / Kinemathek Bern. Film: Dagli Appennini alle Ande (ITA 1916, Umberto Paradisi). Photograph by Barbara Flueckiger.
Credit: Lichtspiel / Kinemathek Bern. Film: Dagli Appennini alle Ande (ITA 1916, Umberto Paradisi). Photograph by Barbara Flueckiger.
Credit: Lichtspiel / Kinemathek Bern. Film: Dagli Appennini alle Ande (ITA 1916, Umberto Paradisi). Photograph by Barbara Flueckiger.
Credit: Lichtspiel / Kinemathek Bern. Film: Dagli Appennini alle Ande (ITA 1916, Umberto Paradisi). Photograph by Barbara Flueckiger.
Credit: Lichtspiel / Kinemathek Bern. Film: Gaumont Woche.
Credit: Lichtspiel / Kinemathek Bern. Film: Gaumont Woche.
Credit: Lichtspiel / Kinemathek Bern. Film: Gaumont Woche.
Credit: Lichtspiel / Kinemathek Bern. Film: Gaumont Woche.
Credit: Lichtspiel / Kinemathek Bern. Film: Selznick News.

4500 Images in 113 Galleries

Tinted film base / Kodak Sonochrome

1928

|

(Eastman Kodak)

Applied colors: Tinted film for sound films

Kodak Sonochrome was a specially prepared tinted film for sound film that did not interfere with the spectral sensitivity of the photo-electric cell for the reading of the optical sound track. The 17 Sonochrome tints were dyed in mainly light hues ...

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Credit: Paolo Cherchi Usai. Source: Cherchi Usai, Paolo (2000): Silent Cinema. London: BFI.
Source: The International Photographer, July 1929
Source: The International Photographer, July 1929
Source: The International Photographer, July 1929
Source: The International Photographer, July 1929

79 Images in 3 Galleries

Thornton

1924

|

John E. Thornton

|

England

Additive two-color or four-color process: beam splitter and mosaic screen, films

In this process, two positives, one orange-red one blue-green, were cemented together. Several specifications and modifications exist, for instance the strengthening of the perforated film margins via a second exposure, in an attempt to overcome wear ...

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Thomson Color

1947

|

(Société Thomson)

Additive 3 color: Lenticular screen

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Credit: Cinémathèque française, conservatoire des techniques, Paris. Film: Test for Jour de Fête.
Principle of capturing and projecting lenticular film. Credit: Joakim Reuteler and Rudolf Gschwind, Digital Humanities Lab, University of Basel, Switzerland. Illustration by Sarah Steinbacher, Multimedia & E-Learning-Services, University of Zurich.
Principle of capturing and projecting lenticular film. Credit: Joakim Reuteler and Rudolf Gschwind, Digital Humanities Lab, University of Basel, Switzerland. Illustration by Sarah Steinbacher, Multimedia & E-Learning-Services, University of Zurich.

3 Images

Thomascolor

1934

|

Richard Thomas

Additive 3 color: 4 images on 65 mm

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Credit: Illustration by Sarah Steinbacher, Multimedia & E-Learning-Services, University of Zurich. Source: Ryan, Roderick T. (1977): A History of Motion Picture Color Technology. London: Focal Press.
Source: Ryan, Roderick T. (1977): A History of Motion Picture Color Technology. London: Focal Press.
Source: Kistler, L. R. (1945): The Projection of Thomascolor Motion Pictures. In: International Projectionist, 20,7, Jul., pp. 12–14.
Source: Kistler, L. R. (1945): The Projection of Thomascolor Motion Pictures. In: International Projectionist, 20,7, Jul., pp. 12–14.
Left: Thomascolor camera lens mount for converting standard motion picture camera into Thomascolor. Right: A closeup of the Thomascolor projector lens mount for standard film projectors. The inventor points out that this is all that is needed to convert a standard projector to Thomascolor. Source: Anonymous (1944): Thomascolor. Four-Color Process For Motion Pictures. In: International Projectionist, 19,10, Oct., pp. 7–9.

5 Images

Theory of three-color photography

1897

|

Arthur Freiherr von Hübl

Theory

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Source: Hübl, Arthur Freiherr von (1904): Die Dreifarbenphotographie mit besonderer Berücksichtigung des Dreifarbendruckes und der photographischen Pigmentbilder in natürlichen Farben. Halle a. S.: Druck und Verlang von Wilhelm Knapp. Photograph by Martin Weiss, ERC Advanced Grant FilmColors.
Source: Hübl, Arthur Freiherr von (1904): Die Dreifarbenphotographie mit besonderer Berücksichtigung des Dreifarbendruckes und der photographischen Pigmentbilder in natürlichen Farben. Halle a. S.: Druck und Verlang von Wilhelm Knapp. Photograph by Martin Weiss, ERC Advanced Grant FilmColors.
Source: Hübl, Arthur Freiherr von (1904): Die Dreifarbenphotographie mit besonderer Berücksichtigung des Dreifarbendruckes und der photographischen Pigmentbilder in natürlichen Farben. Halle a. S.: Druck und Verlang von Wilhelm Knapp. Photograph by Martin Weiss, ERC Advanced Grant FilmColors.
Source: Hübl, Arthur Freiherr von (1904): Die Dreifarbenphotographie mit besonderer Berücksichtigung des Dreifarbendruckes und der photographischen Pigmentbilder in natürlichen Farben. Halle a. S.: Druck und Verlang von Wilhelm Knapp. Photograph by Martin Weiss, ERC Advanced Grant FilmColors.
Source: Hübl, Arthur Freiherr von (1904): Die Dreifarbenphotographie mit besonderer Berücksichtigung des Dreifarbendruckes und der photographischen Pigmentbilder in natürlichen Farben. Halle a. S.: Druck und Verlang von Wilhelm Knapp. Photograph by Martin Weiss, ERC Advanced Grant FilmColors.
Source: Hübl, Arthur Freiherr von (1904): Die Dreifarbenphotographie mit besonderer Berücksichtigung des Dreifarbendruckes und der photographischen Pigmentbilder in natürlichen Farben. Halle a. S.: Druck und Verlang von Wilhelm Knapp. Photograph by Martin Weiss, ERC Advanced Grant FilmColors.
Source: Hübl, Arthur Freiherr von (1904): Die Dreifarbenphotographie mit besonderer Berücksichtigung des Dreifarbendruckes und der photographischen Pigmentbilder in natürlichen Farben. Halle a. S.: Druck und Verlang von Wilhelm Knapp. Photograph by Martin Weiss, ERC Advanced Grant FilmColors.
Source: Hübl, Arthur Freiherr von (1904): Die Dreifarbenphotographie mit besonderer Berücksichtigung des Dreifarbendruckes und der photographischen Pigmentbilder in natürlichen Farben. Halle a. S.: Druck und Verlang von Wilhelm Knapp. Photograph by Martin Weiss, ERC Advanced Grant FilmColors.
Source: Hübl, Arthur Freiherr von (1904): Three-Colour Photography. Three-Colour Printing and the Production of Photographic Pigment Pictures in Natural Colours. London: W.A. Penrose.
Source: Hübl, Arthur Freiherr von (1904): Die Dreifarbenphotographie mit besonderer Berücksichtigung des Dreifarbendruckes und der photographischen Pigmentbilder in natürlichen Farben. Halle a. S.: Druck und Verlang von Wilhelm Knapp. Photograph by Martin Weiss, ERC Advanced Grant FilmColors.

11 Images

The Cultural History of Color

Bibliography

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Source: Jacobson, Egbert (1942): The Color Harmony Manual and How to Use It. Chicago: Color Laboratories Division, Container Corp. of America. Credit: Faber Birren Collection, Yale University. Photograph by Barbara Flueckiger.

1 Image

Thames Colour Screen

1908

|

Clare Livingston Finlay (Thames Colour Plate Company of London)

Additive 3 color: regular mosaic screen (circles), separate system, still photography

“Thames Colour products originated from a 1906 patent by Clare Livingston Finlay (d. 1936) and were introduced commercially in England by the Thames Colour Plate Company of London in 1908 (Fig. 2.10). Color screens were obtained by repeatedly ...

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Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 30.
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 63.
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 69.

3 Images

Thames Colour Plate

1909

|

Clare Livingston Finlay (Thames Colour Plate Company of London)

Additive 3 color: regular mosaic screen (circles), combined system, still photography

“Thames Colour products originated from a 1906 patent by Clare Livingston Finlay (d. 1936) and were introduced commercially in England by the Thames Colour Plate Company of London in 1908 (Fig. 2.10). Color screens were obtained by repeatedly ...

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Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 30.

1 Image

Telco Color, additive 2 color

1936

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Leon Ungar and K. R. Hoyt

Additive 2 color: Split optics, side by side

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Telco color subtractive 2 color

1938

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Leon Ungar and K. R. Hoyt

Subtractive 2 color: Split optics, side by side, duplitized film

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Source: Ryan, Roderick T. (1977): A History of Motion Picture Color Technology. London: Focal Press.

1 Image

Technicolor No. VI: Dye-transfer prints from enhanced process

1997

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Technicolor

Subtractive 3 color: dye transfer

In 1994, Technicolor announced the development of an enhanced dye-transfer process. This process became effective in June 1997. There was no official denomination, so “Technicolor No. VI” is not to be confused with statements from the mid ...

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Technicolor No. V: Dye transfer prints from chromogenic negative

1954

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(Technicolor)

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USA

Subtractive 3 color: Dye transfer

With the introduction of the chromogenic Eastmancolor negative/positive process it became possible to shoot with a normal one-strip camera. Three b/w color separations were produced from the Eastmancolor negative and printed by dye transfer on blank ...

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Written on the Wind (1956). Credit: Harvard Film Archive, item no. 3663. Photograph by Barbara Flueckiger.
Credit: Harvard Film Archive, item no. 1781. Film: Le Ballon rouge (1956). Photograph by Barbara Flueckiger.
Credit: Harvard Film Archive, item no. 1781. Film: Le Ballon rouge (1956). Photograph by Barbara Flueckiger.
Surface emulsion side, raking light (tungsten). Credit: Carsta Knaack, HTW Berlin. Film: Robin Hood, 1973.
Photomicrograph 16x, raking light. Credit: Carsta Knaack, HTW Berlin. Film: Robin Hood, 1973.
Photomicrograph, toplight on white background. Credit: Carsta Knaack, HTW Berlin. Film: Robin Hood, 1973.
Photomicrograph 6,4x, top light on white background: picture and perforation area with spots of dye, yellow edge. Credit: Carsta Knaack, HTW Berlin. Film: Ssssss (1973).
Photomicrograph 10x, top light on white background: picture and perforation area with spots of dye, yellow edge, yellow dye in frame line. Credit: Carsta Knaack, HTW Berlin. Film: Ssssss (1973).
Photomicrograph 16x, top light on white background: sound track and perforation area with spots of dye, yellow edge. Credit: Carsta Knaack, HTW Berlin. Film: Ssssss (1973).
Raking light: surface of picture and perforation area with small spots of dye, yellow edge. Credit: Carsta Knaack, HTW Berlin. Film: Ssssss (1973).
Surface emulsion side, raking light (tungsten). Credit: Carsta Knaack, HTW Berlin. Film: Robin Hood, 1973.
Vertigo (USA 1958, Alfred Hitchcock). Credit: Harvard Film Archive, item no. 246. HDR photograph by Barbara Flueckiger.

2180 Images in 41 Galleries

Technicolor No. IV: Three-strip

1932

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(Technicolor)

Subtractive 3 color: Color separation, beam-splitter, dye transfer

With the fourth Technicolor process the company dominated the market for color films from the mid-1930s to the 1950s. In a special camera, three b/w negative films were exposed through a beam-splitter that consisted of two prisms to form a cube. One ...

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Credit: Image courtesy of the Academy Film Archive. Film: Gone with the Wind (USA 1939, Victor Fleming). Photograph by Barbara Flueckiger.
Film: Samson and Delilah (US 1949, Cecil B. DeMille), trailer.
Photomicrograph, 50x. Credit: Norbert Wey, Institute of Pathology, University of Zurich.
Photomicrograph, 100x. Credit: Norbert Wey, Institute of Pathology, University of Zurich.

1887 Images in 65 Galleries

Technicolor No. III

1927

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(Technicolor)

Subtractive 2 color: Beam-splitter, dye transfer

The third Technicolor process used the same camera as process no. II to combine a pair of frames of the red and green record respectively on the b/w negative (see image). In contrast to the former process, however, the two images were printed on one side of the positive by the dye transfer or imbibition process.

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King of Jazz (USA 1930, John Murray Anderson). Credit: Library of Congress. Photographs of the Technicolor No. III dye-tranfer nitrate print from 1930 and 1931 by Olivia Kristina Stutz, ERC Advanced Grant FilmColors.
Credit: Images courtesy of the Margaret Herrick Library. Film: Corrine Griffith in The Garden of Eden. Photograph: Barbara Flueckiger.
Credit: George Eastman House Motion Picture Department Collection. Film: Buffalo Bill’s Last Fight (USA 1927, John W. Noble).
Technicolor ad in Photoplay, 1930. Source: Photoplay, 1930, see Media History Digital Library
Technicolor ad in Photoplay, 1930. Source: Photoplay, 1930, see Media History Digital Library
Photomicrograph, 10x. Credit: Silvana Konermann.
Photomicrograph, 20x. Credit: Silvana Konermann.
Doctor X (USA 1932, Michael Curtiz). Credit: UCLA Film & Television Archive. Photographs of the Technicolor No. III dye-tranfer nitrate print by Barbara Flueckiger.
Doctor X (USA 1932, Michael Curtiz). Credit: UCLA Film & Television Archive. Photographs of the Technicolor No. III dye-tranfer nitrate print by Barbara Flueckiger.

1298 Images in 38 Galleries

Technicolor No. II

1922

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(Technicolor)

Subtractive 2 color: 2 toned films cemented

The first subtractive 2 color process introduced by Technicolor captured the incoming light through a beam splitter with red and green filters also. However, in contrast to the first Technicolor process, the two b/w images were recorded on one negative strip. This was achieved by the pull-down of two frames simultaneously, a process that required the double speed in the camera. These two frames were arranged in pairs, whereby the green record was inverted up-side down (see image).

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The Phantom of the Opera (USA 1925, Rupert Julian). Credit: UCLA Film & Television Archive. Photographs of the nitrate print by Barbara Flueckiger.
Credit: Images courtesy of the Margaret Herrick Library. Photograph by Barbara Flueckiger.
Source: Coe, Brian (1981): The History of Movie Photography. Westfield, N.J.: Eastview Editions.
Apparently test pieces, these clippings may well be the oldest surviving samples of the process in existence. Ruedel (2009: 55). Credit: George Eastman House Motion Picture Department Collection. Source: Ruedel, Ulrich (2009): The Technicolor Notebooks at the George Eastman House. In: Film History, Volume 21, Number 1, 2009, pp. 47-60.
Apparently test pieces, these clippings may well be the oldest surviving samples of the process in existence. Ruedel (2009: 55); color reconstruction of the images shown above. Credit: George Eastman House Motion Picture Department Collection. Source: Ruedel, Ulrich (2009): The Technicolor Notebooks at the George Eastman House. In: Film History, Volume 21, Number 1, 2009, pp. 47-60.
Apparently test pieces, these clippings may well be the oldest surviving samples of the process in existence. Ruedel (2009: 55). Credit: George Eastman House Motion Picture Department Collection. Source: Ruedel, Ulrich (2009): The Technicolor Notebooks at the George Eastman House. In: Film History, Volume 21, Number 1, 2009, pp. 47-60.
Arrangement of the two records on the camera negative. Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress.
Film: Stage Struck (USA 1925, Allan Dwan). Credit: Nitrate Frame Collection. George Eastman House Moving Image Collection. Photograph by Barbara Flueckiger.
Film: Irene (USA 1926, Alfred E. Green). Credit: Nitrate Frame Collection. George Eastman House Moving Image Collection. Photograph by Barbara Flueckiger.
Film: Irene (USA 1926, Alfred E. Green). Credit: Library of Congress. Photograph by Barbara Flueckiger.
Film: Irene (USA 1926, Alfred E. Green). Credit: Library of Congress. Photograph by Barbara Flueckiger.
Film: Irene (USA 1926, Alfred E. Green). Credit: Library of Congress. Photograph by Barbara Flueckiger.
Film: Irene (USA 1926, Alfred E. Green). Credit: Library of Congress. Photograph by Barbara Flueckiger.
Film: Irene (USA 1926, Alfred E. Green). Credit: Library of Congress. Photograph by Barbara Flueckiger.

133 Images in 8 Galleries

Technicolor No. I

1916

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Herbert Kalmus, Daniel Frost Comstock and William Burton Westcott (Technicolor)

Additive 2 color: Beam-splitter

During the capturing of the film a beam-splitter in combination with filters in the camera divided the incoming light into a red and a green separation negative on black-and-white stock. When projected in the cinema the two images were combined simultaneously by additive mixture through corresponding red and green filters into one picture consisting of red and green colored light. The reduction of the whole color range to two colors (and their additive combinations) was necessary because of the complex optical arrangement.

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The beam-splitter prism. Source: Coote, Jack H. (1993): The Illustrated History of Colour Photography. Surbiton, Surrey: Fountain Press.

6 Images in 1 Gallery

Technicolor Monopack / Kodachrome Professional Type 5267 / Eastman Monopack 7267

1940

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(Technicolor / Kodak Eastman)

Subtractive 3 color: Chromogenic monopack

During the 1940s Kodachrome was used as camera material for films that were blown up to 35mm Technicolor projection prints. Technicolor used this technology from 1942 until the mid-1950s when Eastman Kodak introduced the Eastmancolor ...

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Technichrome

1948

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(Technicolor)

Subtractive 2 color: Dye transfer, 2 color bi-pack, 3 color printing

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Technichrome, three-color print of bi-pack negatives, 1948. Credit: Gert Koshofer Collection. Sample No. 89. Photograph by Barbara Flueckiger

4 Images in 1 Gallery

Technic-Colour

1925

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(Technic-Colour)

Subtractive 2 color: Beam-splitter, duplitized

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Talkicolor

1917

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Percy James Pearce; Dr Anthony Bernardi (Talkicolor Ltd.)

Additive 2 color: Alternately stained

“Two-colour additive process Talkicolor was developed by Percy James Pearce along with Dr Anthony Bernardi who was also involved in the development of Raycol. The process was funded mainly by the author Elinor Glyn through her company Elinor ...

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Knowing Men (GB 1930, Elinor Glyn), negative. Credit: Courtesy of BFI National Archive. Photograph by Barbara Flueckiger.

3 Images in 1 Gallery

Taihang Color

1980

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(1. Film Factory, Paoting, Hopei)

Subtractive 3 color: Chromogenic monopack

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Szczepanik

1924

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Jan Szczepanik (Emil Busch AG)

Additive 3 color: Moving lenses

“The process of J. Szczepanik in 1925 was impracticable. He used a non-intermittent camera having a chain of eighteen lenses moving together with the film behind a collimating lens, three pictures being simultaneously exposed.” (Klein, ...