Please access detailed information on over 250 individual film color processes via the classification system on this page, display the Timeline of Historical Film Colors in chronological order, browse by image, search by color, search via the tag cloud at the end of this page or directly on the search page, or see the contributing archives’ collections on the header slides.
This database was created in 2012 and has been developed and curated by Barbara Flueckiger, professor at the Department of Film Studies, University of Zurich to provide comprehensive information about historical film color processes invented since the end of the 19th century including specific still photography color technologies that were their conceptual predecessors.
Timeline of Historical Film Colors was started with Barbara Flueckiger’s research at Harvard University in the framework of her project Film History Re-mastered, funded by Swiss National Science Foundation, 2011-2013.
In 2013 the University of Zurich and the Swiss National Science Foundation awarded additional funding for the elaboration of this web resource. 80 financial contributors sponsored the crowdfunding campaign Database of Historical Film Colors with more than USD 11.100 in 2012. In addition, the Institute for the Performing Arts and Film, Zurich University of the Arts provided a major contribution to the development of the database. Many further persons and institutions have supported the project, see acknowledgements.
Since February 2016 the database has been redeveloped in the framework of the research project Film Colors. Technologies, Cultures, Institutions funded by a grant from Swiss National Science Foundation. Since 2016, the team of the research project ERC Advanced Grant FilmColors has been collecting and adding written sources and photographs. All the members of the two research projects on film colors, both led by Barbara Flueckiger, have been capturing photographs of historical film prints since 2017.
Follow the links “Access detailed information ›” to access the currently available detail pages for individual processes. These pages contain an image gallery, a short description, a bibliography of original papers and secondary sources connected to extended quotes from these sources, downloads of seminal papers and links. We are updating these detail pages on a regular basis.
More than a decade of research on film colors, countless visits to archives to explore and document historical film colors for the Timeline has led the team to develop the scientifically proven multispectral scanning workflow Scan2Screen.
Based on an in-depth study of 8 leading commercial film scanners the team identified core requirements to capture historical film colors in a more comprehensive and future-proof way.
Since the earliest days of cinema, film has been a colorful medium and art form. More than 230 film color processes have been devised in the course of film history, often in close connection with photography. In this regard, both media institutionalized numerous techniques such as hand and stencil coloring as well as printing and halftone processes. Apart from these fundamental connections in terms of the technology of color processes, film and photography also share and exchange color attributions and aesthetics.
This publication highlights material aspects of color in photography and film, while also investigating the relationship of historical film colors and present-day photography. Works of contemporary photographers and artists who reflect on technological and culture-theoretical aspects of the material of color underline these relations. Thematic clusters focus on aesthetic and technological parallels, including fashion and identity, abstraction and experiment, politics, exoticism, and travel.
Color Mania contains a general introduction to color in film and photography (technique, materiality, aesthetics) as well as a series of short essays that take a closer look at specific aspects. An extensive image section illustrates the texts and color systems and continues the aesthetic experience of the various processes and objects in book form.
Edited by Barbara Flückiger, Eva Hielscher, Nadine Wietlisbach, in collaboration with Fotomuseum Winterthur
With contributions by Michelle Beutler, Noemi Daugaard, Josephine Diecke, Evelyn Echle, Barbara Flueckiger, Eirik Frisvold Hanssen, Eva Hielscher, Thilo Koenig, Joëlle Kost, Franziska Kunze, Bregt Lameris, David Pfluger, Ulrich Ruedel, Mona Schubert, Simon Spiegel, Olivia Kristina Stutz, Giorgio Trumpy, Martin Weiss, Nadine Wietlisbach
Design: Meierkolb
16 × 24 cm, 6 ¼ × 9 ½ in
240 pages, 122 illustrations
paperback
In June 2015, the European Research Council awarded the prestigious Advanced Grant to Barbara Flueckiger for her new research project FilmColors. Bridging the Gap Between Technology and Aesthetics, see press release of the University of Zurich and information on the University of Zurich’s website.
Subscribe to the blog to receive all the news: https://blog.filmcolors.org/ (check out sidebar on individual entries for the “follow” button).
Contributions to the Timeline of Historical Film Colors
“It would not have been possible to collect all the data and the corresponding images without the support from many individuals and institutions.Thank you so much for your contribution, I am very grateful.”
Barbara Flueckiger
Experts, scholars, institutions | Sponsors, supporters, patrons of the crowdfunding campaign, April 23 to July 21, 2012
Experts, scholars, institutions
Prof. Dr. David Rodowick, Chair, Harvard University, Department of Visual and Environmental Studies
Prof. Dr. Margrit Tröhler, Department of Film Studies, University of Zurich
Prof. Dr. Jörg Schweinitz, Department of Film Studies, University of Zurich
Prof. Dr. Christine N. Brinckmann, Department of Film Studies, University of Zurich
PD Dr. Franziska Heller, Department of Film Studies, University of Zurich
Dr. Claudy Op den Kamp, Department of Film Studies, University of Zurich
Prof. Anton Rey, Institute for the Performing Arts and Film, Zurich University of the Arts
Dr. Haden Guest, Director, Harvard Film Archive
Liz Coffey, Film Conservator, Harvard Film Archive
Mark Johnson, Loan Officer, Harvard Film Archive
Brittany Gravely, Publicist, Harvard Film Archive
Clayton Scoble, Manager of the Digital Imaging Lab & Photography Studio, Harvard University
Stephen Jennings, Photographer, Harvard University, Fine Arts Library
Dr. Paolo Cherchi Usai, Senior Curator, George Eastman Museum, Motion Picture Department
Jared Case, Head of Cataloging and Access, George Eastman Museum, Motion Picture Department
Nancy Kauffman, Archivist – Stills, Posters and Paper Collections, George Eastman Museum, Motion Picture Department
Deborah Stoiber, Collection Manager, George Eastman Museum, Motion Picture Department
Barbara Puorro Galasso, Photographer, George Eastman House, International Museum of Photography and Film
Daniela Currò, Preservation Officer, George Eastman House, Motion Picture Department
James Layton, Manager, Celeste Bartos Film Preservation Center, Department of Film, The Museum of Modern Art
Mike Pogorzelski, Archive Director, Academy Film Archive
Josef Lindner, Preservation Officer, Academy Film Archive
Cassie Blake, Public Access Coordinator, Academy Film Archive
Melissa Levesque, Nitrate Curator, Academy Film Archive
Prof. Dr. Giovanna Fossati, Head Curator, EYE Film Institute, Amsterdam, and Professor at the University of Amsterdam
Annike Kross, Film Restorer, EYE Film Institute, Amsterdam
Elif Rongen-Kaynakçi, Curator Silent Film, EYE Film Institute, Amsterdam
Catherine Cormon, EYE Film Institute, Amsterdam
Anke Wilkening, Friedrich Wilhelm Murnau Foundation, Wiesbaden, Germany
Marianna De Sanctis, L’Immagine Ritrovata, Bologna
Paola Ferrari, L’Immagine Ritrovata, Bologna
Gert and Ingrid Koshofer, Gert Koshofer Collection, Bergisch Gladbach, Germany
Memoriav, Verein zur Erhaltung des audiovisuellen Kulturgutes der Schweiz
BSc Gaudenz Halter, Software Development Color Film Analyses, video annotation und crowdsourcing platform VIAN, in collaboration with Visualization and MultiMedia Lab of Prof. Dr. Renato Pajarola, University of Zurich, (Enrique G. Paredes, PhD; Rafael Ballester-Ripoll, PhD) since 07.2017
BSc Noyan Evirgen, Software Development, in collaboration with Visualization and MultiMedia Lab von Prof. Dr. Renato Pajarola, Universität Zürich (Enrique G. Paredes, PhD; Rafael Ballester-Ripoll, PhD), 03.2017–01.2018
Assistants Film Analyses:
BA Manuel Joller, BA Ursina Früh, BA/MA Valentina Romero
The development of the project started in fall 2011 with stage 1. Each stage necessitated a different financing scheme. We are now in stage 3 and are looking for additional funding by private sponsors.
Read more about the financial background of the project on filmcolors.org.
The author has exercised the greatest care in seeking all necessary permissions to publish the material on this website. Please contact the author immediately and directly should anything infringe a copyright nonetheless.
“Then we come upon the name of George Albert Smith, F.R.A.S., of Laboratory Lodge, Roman Crescent, Southwick, Brighton, who in E.P. 26,671, of 1906, patented the method which eventually was commercialized as Kinemacolor.
In this patent he ...
Subtractive 2 color: Beam-splitter, later bi-pack, mordant dye
“Polychromide, a two-color subtractive process invented in 1918 by Aron Hamburger, achieved limited commercial success overseas, and was occasionally employed in England as late as 1933. Originally an orthochromatic and a panchromatic negative were ...
Polychromide samples from the Kodak Film Samples Collection at the National Science and Media Museum in Bradford.
Credit: National Science and Media Museum Bradford.
Photographs by Barbara Flueckiger in collaboration with Noemi Daugaard.
Credit: Brian Pritchard
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 279.
Subtractive 3 color: dye mordanting and silver toning process, still photography
“In 1932 Frederic Eugene Ives published details of his Polychrome printing system for making three-color paper prints or transparencies from two separation negatives made through a red and a green-blue filter. The process, described by its ...
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 281.
Linear filter structure in Polavision instant Super8 film. The filter lines are running along the film strip. According to the image placement of the Super-8 motion picture standard the image is divided vertically into triplets of R, G and B filter lines. The emulsion layer has been removed before this image was taken.
Credit: David Pfluger, ERC Advanced Grant FilmColors. Imaging was performed with support of the Center for Microscopy and Image Analysis, University of Zurich.
Linear filter structure in Polavision instant Super8 film with an emulsion layer of a high photographic density. With the focus set on the emulsion the linear structure of the coloured filters is not visible in this image.
Credit: David Pfluger, ERC Advanced Grant FilmColors. Imaging was performed with support of the Center for Microscopy and Image Analysis, University of Zurich.
Comparision of the linear filter structure of Polachrome 35mm instant slide film and Polavision Super-8 motion picture film. While the technical concept behind the two film stocks is the same, the Super-8 film was produced with linear filters of a smaller width. Based on the given width of an RGB filter triplet and the 135 still image size there are about 920 horizontal RGB-triplets per image for a Polachrome slide. The Super-8 film image is rotated by 90° compared to the 135 film still image and has about 340 vertical RGB-triplets per frame. The positioning of the image content compared to the filter lines is indicated in the picture.
Credit: David Pfluger, ERC Advanced Grant FilmColors. Imaging was performed with support of the Center for Microscopy and Image Analysis, University of Zurich.
Excerpt of a Polavision Super-8 home movie scanned on a Kinetta scanner in 4.8K resolution edge to edge. In post production a zoom in and out was applied to show the linear filter structure of Polavision film in motion. The zoom was based on image detail from the scan. No upres procedure was applied.
Credit: Scanning and editing by Martin Weiss.
A comparison of the colour filter structures of Dufaycolor, Autochrome and Polavision from Anonymous (1978): Ma il Polavision e' un'altra cosa!. Phototest Italiana, 41, Oct., pp 72–77.
A comparison of the colour filter structures of Dufaycolor, Autochrome and Polavision from Anonymous (1978): Ma il Polavision e' un'altra cosa!. Phototest Italiana, 41, Oct., pp 72–77. Translation: David Pfluger and Giorgio Trumpy.
The process of exposure and development of Polavision instant Super-8 film. From Anonymous (1978): Ma il Polavision e' un'altra cosa!. Phototest Italiana, 41, Oct., p. 74.
The process of exposure and development of Polavision instant Super-8 film. From Anonymous (1978): Ma il Polavision e' un'altra cosa!. Phototest Italiana, 41, Oct., p. 74. Translation: David Pfluger and Giorgio Trumpy.
"Polavision (top) vs. Kodachrome 40: These are blowups from closely matching frames of Debra Goldie, filmed simultaneously with a Polavision and a conventional super 8 camera, side by side, with the Twi Light quartz lamp mounted on top of the former. Subject distance was 6 ft., but the super 8 camera was focused for 10 ft. – same as the Polavision camera at its close-up setting. Both Polavision and Kodachrome 40 are closely equal in speed, but differ distinctly in structure, faithfulness of color rendition, and latitude, as is obvious from these frame reproductions. What can't be seen is the relative opacity of Polavision: according to our measurement, it transmits less than 9 percent as Kodachrome 40. However, the lab that made the duplicate transparency blow-ups of the frames found that it had to give a full six stops extra exposure."
(Leavitt, Don; Drukker Leendert (1978): First Look: Polavision instant movies. In: Popular Photography, Feb., p. 68.)
"C'est devant un immense agrandissement de l'intérieur d'une cassette Polavision sur la-quelle se découpe la silhouette de l'orateur (ci-contre à gauche) que le Dr Land présenta son invention. Ce document permet de distinguer les poulies de guidage du film (1 et 2), la réserve de produit de traitement et son bec ré-partiteur (3), la bobine débitrice (4), l'ensemble formé par le presseur de film et le prisme (5), la poulie d'entraînement du film (6)."
"It was in front of a huge enlargement of the interior of a Polavision cassette on which the silhouette of the speaker was cut out (opposite left) that Dr Land presented his invention. This document makes it possible to distinguish the guide pulleys of the film (1 and 2), the supply of treatment product and its distribution nozzle (3), the supply reel (4), the assembly formed by the presser of film and the prism (5), the film drive pulley (6)."
(Anonymous (1977): Naissance du cinéma instantané. In: L'auto-journal, Rubrique realisée sous la direction de Pierre Marais, 12, Jul., pp. 94–95.)
The production of the Filter structure on Polavision film includes the use of a lenticular surface, which is removed after the process. The lenticules are not involved in recording the color information during the taking of images in the camera.
Figure 10 and Figure 11 from: Land, Edwin H. (1997): An Introduction to Polavision. In: Photographic Science and Engineering, 21,5, Sept., Oct., pp. 228–236, on p. 228.
Comparison of thickness of the image carrying layer in a Kodak fine grain positive and Polavision film.
Figure 24 from: Land, Edwin H. (1997): An Introduction to Polavision. In: Photographic Science and Engineering, 21,5, Sept., Oct., pp. 228–236, on p. 235.
In the Polavision instant color film process the negative image recorded during the exposure of the film is neither developed from a latent image to a visible negative nor is it removed from the film. The latent negative stays as a layer in the film and is responsible for a slight attenuation of the image’s highlights.
Figure 25 from: Land, Edwin H. (1997): An Introduction to Polavision. In: Photographic Science and Engineering, 21,5, Sept., Oct., pp. 228–236, on p. 236.
Single frame of a Polavision home movie scanned in 3.5K resolution.
“Polacolor was commercialized in 1963 and became an immediate success. It was acclaimed as the ‘most outstanding single advance in photographic science made during this century’ (Crawley 1963). Indeed, Polacolor introduced important ...
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 235.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 235.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 235.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 258.
Linear filter structure in Polachrome 35mm instant slide film. The blue filter strips are slightly larger compared to the red and green filters. The filter lines are running along the film strip. According to the image placement of the 135 film format for still photography the image is divided horizontally into triplets of R, G and B filter lines.
The emulsion layer has been removed before the image was taken.
Credit: David Pfluger, ERC Advanced Grant FilmColors. Imaging was performed with support of the Center for Microscopy and Image Analysis, University of Zurich.
Linear filter structure in Polachrome 35mm instant slide film with a emulsion layer of low photographic density.
Credit: David Pfluger, ERC Advanced Grant FilmColors. Imaging was performed with support of the Center for Microscopy and Image Analysis, University of Zurich.
Comparision of the linear filter structure of Polachrome 35mm instant slide film and Polavision Super-8 motion picture film. While the technical concept behind the two film stocks is the same, the Super-8 film was produced with linear filters of a smaller width. Based on the given width of an RGB filter triplet and the 135 still image size there are about 920 horizontal RGB-triplets per image for a Polachrome slide. The Super-8 film image is rotated by 90° compared to the 135 film still image and has about 340 vertical RGB-triplets per frame. The positioning of the image content compared to the filter lines is indicated in the picture.
Credit: David Pfluger, ERC Advanced Grant FilmColors. Imaging was performed with support of the Center for Microscopy and Image Analysis, University of Zurich.
Credit: Illustration by Sarah Steinbacher, Multimedia & E-Learning-Services, University of Zurich. Source: Cornwell-Clyne, Adrian (1951): Colour Cinematography. London: Chapman & Hall.
Source: Cornwell-Clyne, Adrian (1951): Colour Cinematography. London: Chapman & Hall.
Subtractive 3 color: Dye transfer, still photography
“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 ...
Cyan and magenta combined, third layer, yellow missing. Source: Meister Lucius & Brüning (1905): Pinatypie. Positiv-Verfahren für die Dreifarbenphotographie. Höchst am Main.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 235.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 235.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 132.
Stencil coloring required the manual cutting, frame by frame, of the area which was to be tinted onto another identical print, one for each color. Usually the number of colors applied ranged from 3 to 6.
The process was highly improved by the ...
Casanova (FRA 1927, Alexandre Volkoff). Credit: Cinémathèque française. Photographs of the stencil colored safety print by Barbara Flueckiger.
Print no. 1 of Amour d'esclave (FRA 1907, Albert Capellani). Credit: Library of Congress. Photograph of the nitrate film print by Barbara Flueckiger.
Edge mark: Pathé (April 1907-1909), on one edge, PATHÉ FRÈRES and on the other, 14 RUE FAVART PARIS (partially visible). Cf. Ill.PM.4: Brown, Harold (1990): Physical Characteristics of Early Films as Aids to Identification. Brussels: FIAF, on p. 9.
Credit: Cinémathèque française, conservatoire des techniques, Paris.
Source: Coe, Brian (1981): The History of Movie Photography. Westfield, N.J.: Eastview Editions.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: Amour d'esclave (France 1907).
Edge mark: PATHÉ FRÈRES PARIS (without gap, 1906-1907, partially visible). Cf.: Ill.PM.33: Brown, Harold (1990): Physical Characteristics of Early Films as Aids to Identification. Brussels: FIAF, on p. 9.
Tinting in combination with stencil coloring. Credit: Turconi Collection by courtesy of George Eastman House Motion Picture Department Collection. Film: L'Exode (FRA 1910, Louis Feuillade)
Credit: Turconi Collection by courtesy of George Eastman House Motion Picture Department Collection. Film: L'Exode (FRA 1910, Louis Feuillade)
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: Le Pied de Mouton (ca. 1910).
Edge mark: Pathé (1909 onward), on one edge, PATHÉ FRÈRES 14 RUE FAVART PARIS and on the other, EXHIBITION INTERDITE EN FRANCE EN SUISSE ET EN BELGIQUE (partially visible). Cf.: Ill.PM.5: Brown, Harold (1990): Physical Characteristics of Early Films as Aids to Identification. Brussels: FIAF, on p. 9.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: The Golden Beetle (1907).
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: Unknown film (ca. 1919).
Credit: Cinémathèque française, conservatoire des techniques, Paris.
Credit: Cineteca di Bologna.
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.
Credit: Turconi Collection by courtesy of George Eastman Museum, Motion Picture Department Collection. Film: Kinder-Karno in Nizza.
Toplight and backlight, Swiss collector's copy. Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé.
Backlight, Swiss collector's copy. Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé.
Toplight and backlight, Swiss collector's copy. Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé.
Toplight and backlight, Swiss collector's copy. Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé.
Pathéorama. Toplight and backlight, Swiss collector's copy. Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé.
Pathéorama. Backlight, Swiss collector's copy. Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé.
Pathéorama. Credit: Clayton Scoble and Stephen Jennings, Harvard University, Fine Arts Library. Backlight. Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé.
Credit: Clayton Scoble and Stephen Jennings, Harvard University, Fine Arts Library. Backlight. Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé.
Subtractive 3 color: Bi-pack and lenticular film recording, duplitized film with toning and silver dye-bleach
“In October, Eggert of the Agfa Research Department, read a paper at the Berlin meeting of the Deutsche Gesellschaft für photographische Forschung, on the Pantochrom subtractive lenticular bipack tricolor process. (Fig. 1) The green and blue ...
Agfa Pantachrom. Source: Arens, Hans; Heymer, Gerd (1939): Die „Agfa-Farbentafel für Farbenphotographie“. In: Veröffentlichungen des wissenschaftlichen Zentral-Laboratoriums der photographischen Abteilung Agfa, Vol. 6, 1939, pp. 225-229. Leipzig: Hirzel. Photograph by Martin Weiss, ERC Advanced Grant FilmColors.
”Kelley’s first color process was a four-color additive system introduced in 1913. Called Panchromotion, Kelley formed a company which would exploit the process commercially and, he hoped, provide strong competition for Kinemacolor. He apparently ...
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.
Geoffrey S. Whitefield, Paget Prize Plate Company of Watford, England
Additive 3 color: regular mosaic screen, separate system, still photography
“Paget Color Screen (1913–ca. 1922): lines of red and blue squares alternated with lines of green and blue squares (Fig. 2.52). The lines are at a 45-degree angle from the edge of the plate. The side of the red and green squares measures ...
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 69.
Subtractive 3 color: pigment process, still photography
“In 1905 Thomas Manly (d. 1932) of London introduced the Ozobrome process,21 which was a modification of his earlier Ozotype, patented in 1898.22 The process was based on a carbon printing method proposed in 1873 by Auguste Marion (1835–1917) ...
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 100.
Cross section schemes of different materials by Orwo. Source: Kaufmann, Siegfried (1976): Vom ersten Farbumkehrfilm zum Orwochrom-System. In: Bild und Ton, 3/1976, p. 88-93.
Cross section scheme of different Orwo materials. Source: Kaufmann, Siegfried (1976): Vom ersten Umkehrfilm zum Orwochrom-System. In: Bild und Ton 3/1976, pp. 88-93.
“In 1873 Dr Vogel discovered that by adding dyes to the sensitive material, its sensitivity could be extended, so that it would record green as well as blue. The new ‘orthochromatic’ plates were available commercially from 1882. The ...
„Film orthochromatique (film négatif Pathé Standard)“ (orthochromatic stock). Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé.
„Film ordinaire (non orthochromatique)“ (Normal, non-orthochromatic stock). Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé.
Additive 3 color: regular mosaic screen, still photography
“To produce the Omnicolore color screen, a sheet of glass was coated with a layer of gelatin on which lines of greasy blue-violet ink were ruled. The space between the lines was dyed yellow. Lines of greasy light blue ink were then ruled at ...
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 29.
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 70.
Additive 3 color: mosaic screen, combined system, still photography
“New Agfa Color Plate (1923–1932): colored particles very small and not visible to the naked eye, but clumps of particles of the same color give the image a pointillist effect (Fig. 2.62). Unlike with the autochromes, in which the grains ...
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 73.
Subtractive 3 color: pigment process, still photography
“In 1902 Robert Krayn of Berlin described and patented his Naturfarben-Photographie System, a carbon printing system that was commercially introduced around 1905 by the German manufacturer of photographic paper Neue Photographische ...
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 85.
“In the Multicolor (two-color) subtractive process, two negative films are run simultaneously through any standard camera with their emulsion surfaces in contact. The front negative is orthochromatic, with the surface layer dyed orange-red to ...
Iridescence on Multicolor print, reflection properties. Credit: Library of Congress. Photograph by Barbara Flueckiger
Magnification 20x. Credit: photomicrograph by Silvana Konermann.
Magnification 10x. Credit: photomicrograph by Silvana Konermann.
Magnification 5x. Credit: photomicrograph by Silvana Konermann.
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: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: Fox Movietone Follies of 1929.
Source: Coe, Brian (1981): The History of Movie Photography. Westfield, N.J.: Eastview Editions.
Source: Cornwell-Clyne, Adrian (1951): Colour Cinematography. London: Chapman & Hall.
Source: Cornwell-Clyne, Adrian (1951): Colour Cinematography. London: Chapman & Hall.
Credit: Illustration by Sarah Steinbacher, Multimedia & E-Learning-Services, University of Zurich. Source: Cornwell-Clyne, Adrian (1951): Colour Cinematography. London: Chapman & Hall.
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.
Magnification of an 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.
Reflection properties. 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.