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.
Additive 3 color: mosaic screen, combined system, still photography
“Lumière Alticolor (1952–1955): rolls and pack films on celluloid base. Alticolor starch grains are smaller but of less regular shape than those used in Filmcolor (Fig. 2.74). There are no black pigment particles; therefore, Alticolor ...
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 76.
Additive 3 color: mosaic screen, combined system, still photography
“Lumière Filmcolor (1931–1953): sheet films (only) on celluloid base (Fig. 2.69). Individual colored grains cannot be seen with the naked eye, but clumps of grains of the same color give the image a pointillist effect. Filmcolor starch ...
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 74.
Additive 3 color: mosaic screen, combined system, still photography
“Lumière Lumicolor (1933–1953): rolls and pack films on celluloid base. Individual colored grains cannot be seen with the naked eye, but clumps of grains of the same color give the image a pointillist effect (Fig. 2.71). Starch grains ...
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 76.
“Harmonicoior was developed by French chemist Maurice Combes. It was first formally demonstrated in London by Harmonicoior Films Ltd, of 4 Great Winchester Street, on the 23 March 1936 at the Curzon Soho with the film Talking Hands, produced at ...
Similar to stenciling, the Handschiegl process was applied mechanically to manually defined image parts. Therefore it is an applied color process.
After the film was shot and edited, for each color applied a separate print was made. In contrast to ...
Black-and-white with Handschiegl in Lights of Old Broadway (USA 1925, Monta Bell). Credit: Library of Congress. Photograph of the nitrate print by Barbara Flueckiger.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: Trail of '98 (USA 1929, Clarence Brown).
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: Trail of '98 (USA 1929, Clarence Brown).
Credit: Paolo Cherchi Usai. Source: Cherchi Usai, Paolo (2000): Silent Cinema. London: BFI. Film: Greed (USA 1925, Erich von Stroheim).
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: Forbidden Fruit (USA 1921, Cecil B. DeMille).
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: Forbidden Fruit (USA 1921, Cecil B. DeMille).
Source: Ryan, Roderick T. (1977): A History of Motion Picture Color Technology. London: Focal Press, p. 24.
Credit: Geo. Willeman, Nitrate Film Vault Manager, Library of Congress. Film: Trail of '98 (USA 1929, Clarence Brown).
Screenshot from Mayorov, Nikolai (2012): Soviet Colours. Translated by Birgit Beumers. In: Studies in Russian & Soviet Cinema, 6:2, pp. 241–255. doi: 10.1386/srsc.6.2.241_1 Courtesy of Nikolai Mayorov.
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 ...
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.
Subtractive 3 color: dye imbibition process, still photography
“Autotype Dyebro
Introduced around the same time as Colorsnap and Uvatype, Autotype Dyebro combined the three-color carbro and dye imbibition processes. The method was invented by Owen Wheeler (1859–1932) and commercialized by the Autotype ...
Subtractive 2 color: Perforated mirror as beam-splitter, duplitized film
“Following the premises of one of William Friese-Greene’s systems, this two-colour subtractive process required that two reels of film be printed in parallel through a lens fitted with a prism that split light in two directions, through red ...
Subtractive 2 or 3 color: Perforated mirror as beam-splitter, duplitized film
“The Brewster Process.
(U.S.P. 1,752,477. 1930-)
Camera. – P. D. Brewster, an American inventor, who was one of the first to apply the bipack system to colour cinematography, has a number of patents to his credit covering various cameras and ...
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 ...
Subtractive 4 color: pigment process, still photography
“In 1951, when pigment processes were falling into disfavor, Pierre Fresson (1904–1983) of Atelier Fresson developed Fresson Quadrichromy, a four-color printing method based on the monochrome direct carbon process (charbon-satin) that had ...
Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 91.
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 ...
Subtractive 4 color: pigment process, still photography
“In 1998 Racey Gilbert purchased Polaroid’s stock of pigment films and opened Ataraxia Studio in Bensalem, Pennsylvania, to make high-quality collectors’ carbon prints. Under the direction of Gérard Niemetzky, the studio produced ...
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 98.
Additive 3 color: lenticular screen, still photography and film
“Every element of a cross-lined screen acts as a pinhole camera, and reproduces an image of the aperture of the objective in whose rear focal plane it is placed. Thus, when using a square stop, the dots in the halftone produced will be square ...
Credit: Illustration by Sarah Steinbacher, Multimedia & E-Learning-Services, University of Zurich. Source: Ede, François (1994): Jour de fête ou la couleur retrouvée. Cahiers du Cinéma: Paris.
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.
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.
“Probably the first use of the catalytic property of silver was in 1889, when E. Howard Farmer disclosed the action of a silver image upon strong dichromate solutions (Eng. P. 17773/89). When a plate or film, containing a silver image, is immersed ...
Three matrices in the subtractive primary colors are printed on the gelatin of the final print. Supposedly, the used dyes were particularly fast and able to prevent color bleeding. Pokorny started working on color cinematography in the 1920s, often ...
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.
Additive 3 color: line screen and mosaic, still photography
“Another method of producing a line screen was patented in 1904 by the German Robert Krayn, and was demonstrated by him in November 1907. Krayn stained very thin celluloid sheets red, green and blue, and cemented them interleaved to form a ...
Source: Coe, Brian (1978): Colour Photography. The First Hundred Years 1840-1940. London: Ash & Grant, p. 54.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 34.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 35.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 35.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 36.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 74.
Source: Pénichon, Sylvie (2013): Twentieth Century Colour Photographs. The Complete Guide to Processes, Identification & Preservation. London, Los Angeles: Thames & Hudson, p. 74.
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.
Mordant toning or dye toning is a special case of toning whereby the silver image is replaced by colored compounds. Soluble dyes attach to a colorless (silver ferrocyanide) or nearly colorless (silver iodide) silver salt obtained by bleaching. Dye ...
Virages sur mordançage, Bleu (blue mordant toning), backlight, Swiss collectors'copy. Source: Didiée, L. (1926): Le Film vierge Pathé. Manuel de développement et de tirage. Paris: Pathé. [quote id='7']
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.
Photomicrograph, 100x. Credit: Norbert Wey, Institute of Pathology, University of Zurich.