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C-41 process
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C-41 is a color print film developing process. C-41, also known as CN-16 by Fuji, CNK-4 by Konica, and AP-70 by AGFA, is the most popular film process in use, with most photofinishing labs devoting at least one machine to this development process.
Processed C-41 negatives, as with all color films, consist of an image formed of dye. Due to the long-term instability of dyes, C-41 negatives can fade or color-shift over time.
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Encyclopedia
C-41 is a color print film developing process. C-41, also known as CN-16 by Fuji, CNK-4 by Konica, and AP-70 by AGFA, is the most popular film process in use, with most photofinishing labs devoting at least one machine to this development process.
Processed C-41 negatives, as with all color films, consist of an image formed of dye. Due to the long-term instability of dyes, C-41 negatives can fade or color-shift over time. This was a significant problem with early films; whether the newer films are archival or not is a subject of some debate.
Film layers
C-41 film consists of an acetate or polyester film base, onto which multiple emulsions are coated. Each layer is only sensitive to a certain color of visible light. In the classic illustrative example, there are three emulsions: one is red sensitive, another is green sensitive, and the last is blue-sensitive. The top layer is blue-sensitive. Beneath the blue layer is a yellow filter, composed of dyes or collodial silver. All silver-based photographic emulsions have some sensitivity to blue light, regardless of what other colors they may be sensitized for. This filter layer serves to remove the blue light, which would expose the layers beneath it. Beneath the blue-sensitive layer and the yellow filter are the green and red sensitive layers.
The illustrative example outlined above differs from the design of actual film, in respect to the number of layers. Almost all C-41 films contain multiple layers sensitive to each color. Each of these layers have different speed and contrast characteristics, allowing the film to be correctly exposed over a wider range of lighting conditions.
In addition to multiple emulsion layers, real films have other layers that are not sensitive to light. Some films are top-coated with UV blocking layers or anti-scratch coatings. There also may be layers to space different emulsions, or additional filter layers.
Each emulsion layer, in addition to the light-sensitive components, contain chemicals called dye couplers. These couplers, located in the blue, green and red-sensitive layers, produce yellow, magenta and cyan dyes, respectively, when developed.
Process
The C-41 process is the same for all C-41 films, although different manufacturers' processing chemistries vary slightly.
After exposure, the film is developed in a "color developer". The developing ingredient is a Paraphenylene Diamine-based chemical known as CD-4. The developer develops the silver in the emulsion layers. As the silver is developing, oxidized developer reacts with the dye couplers, resulting in formation of dyes.
The control of temperature and agitation of the film in the developer is critical in obtaining consistent, accurate results. Incorrect temperature can result in severe color shifts or significant under or over-development of the film.
After the developer, a bleach removes the metallic silver generated by development. After the bleach, a fixer removes the unexposed undeveloped silver halide. This is followed by a wash, and a final stabilizer and rinse to complete the process.
There are simplified versions of the process that use a combined bleach-fix that dissolves the silver generated by development and removes undeveloped silver halide. These are not used by commercial C-41 processors, and are marketed for home or field use.
Push processing
Like the black and white film process, the C-41 process can be used to push process films. Due to the complexity of the film and exacting nature of the process, the results vary widely; as with black and white negatives, the process generally results in a negative that is higher in contrast and sometimes higher in grain.
The negative
The resulting film is a negative, meaning that the darkest spots on the film are those areas that were brightest in the source. Nearly all C-41 films also include an additional orange mask to offset the optical inadequacies of the dyes in the film. These C-41 negatives appear orange when viewed directly, though the orange base is compensated for in the formulation of color print materials. Some C-41 films, intended for scanning, do not have this orange base. The finished negative is printed using color photographic paper to yield a positive image.
Use with black-and-white films
While C-41 usually considered a color process, Kodak manufactures a C-41 black-and-white film called BW400CN. Ilford, a British company, produces a similar film known as XP2 Super. Fuji produces a third film called Neopan 400CN.
These films work like any other C-41 film; development causes dyes to form in the emulsion. Their structure, however, is different. Although they may have multiple layers, all are sensitive to all colors of light, and are designed to produce a black dye. The result is a black-and white image
The Kodak and Fuji films have the same orange base as color C-41 films; the base on the Ilford film is clear. The orange base on the Kodak and Fuji films allows them to be printed with correct blacks on standard color printing machines, but these films can be difficult to print on multigrade black and white paper, whose contrast is determined by the use of a colored filter during the printing process. Conversely, the clear-based Ilford film sometimes results in off-color prints on color paper, but can be optically printed on black and white paper, just like any other Black and White film.
It is often said that prints from these films do not have grain. While they may not appear to have grain, this statement is technically incorrect. On an image from regular Black and White film, the individual silver particles forming the image are seen as grain. The image on the C-41 films, however, does not contain silver. Instead, C-41 negatives and prints have clouds of dye, causing the resulting image to appear different from that of silver grain.
Some photographers have used C-41 developer to develop high contrast black and white films, such as traffic surveillance film and Kodak's Technical Pan film; this is done in order to lower the contrast. In this application, only a silver image is formed; the bleach step of the C-41 process is not used, as it will destroy the image.
Cross processing
It is also possible to cross-process slide film for the E-6 process in C-41 , which yields negatives with a color shift and stronger saturation. (C-41 also may be processed in E-6 yielding positive images with a strong green cast, caused by the orange mask.) Cross processing E-6 in C-41 is popular in Lomography where the saturated colorful result adds to the image. Many modern digital minilabs will produce unsatisfactory results when presented cross-processed E-6 as the scanner will attempt color correction to "normalize" the final image, this can generally be overcome by using professional dedicated film scanners and disabling any color correction if scans or prints are to be made.
C41 film can be processed in standard black and white chemicals, to produce a monochrome negative image. The negatives will typically be of very low contrast, and cloudy, partly caused by the orange mask.
See also
External links
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