All photographic processing use a series of chemical baths. Processing, especially the development stages, requires very close control of temperature, agitation and time.
Black and white negative processing • The film may be soaked in water to swell the
gelatin layer, facilitating the action of the subsequent chemical treatments. • The
developer converts the latent image to macroscopic particles of metallic
silver. • A
stop bath, typically a dilute solution of
acetic acid or
citric acid, halts the action of the developer. A rinse with clean
water may be substituted. • The
fixer makes the image permanent and light-resistant by dissolving remaining
silver halide. A common fixer is
hypo, specifically
ammonium thiosulfate. • Washing in clean water removes any remaining fixer. Residual fixer can corrode the silver image, leading to discolouration, staining and fading. The washing time can be reduced and the fixer more completely removed if a
hypo clearing agent is used after the fixer. • Film may be rinsed in a dilute solution of a
non-ionic wetting agent to assist uniform drying, which eliminates drying marks caused by
hard water. (In very hard water areas, a pre-rinse in
distilled water may be required – otherwise the final rinse wetting agent can cause residual ionic
calcium on the film to drop out of solution, causing spotting on the negative.) • Film is then dried in a dust-free environment, cut and placed into protective sleeves. Once the film is processed, it is then referred to as a
negative. The negative may now be
printed; the negative is placed in an
enlarger and projected onto a sheet of photographic paper. Many different techniques can be used during the enlargement process. Two examples of enlargement techniques are
dodging and burning. Alternatively (or as well), the negative may be
scanned for
digital printing or web viewing after adjustment, retouching, and/or
manipulation. From a chemical standpoint, conventional black and white negative film is processed by a developer that reduces silver halide to silver metal, exposed silver halide is reduced faster than unexposed silver halide, which leaves a silver metal image. It is then fixed by converting all remaining silver halide into a soluble silver complex, which is then washed away with water.
Colour processing Chromogenic materials use
dye couplers to form colour images. Modern colour negative film is developed with the
C-41 process and colour negative print materials with the
RA-4 process. These processes are very similar, with differences in the first chemical developer. The C-41 and RA-4 processes consist of the following steps: • The colour developer develops the silver negative image by reducing the silver halide crystals that have been exposed to light to metallic silver, this consists of the developer donating electrons to the silver halide, turning it into metallic silver; the donation oxidizes the developer which then activates the dye couplers to form the colour dyes in each emulsion layer, but only does so in the dye couplers that are around unexposed silver halide. • A rehalogenising bleach converts the developed metallic silver into silver
halide. • A fixer removes all silver halide by converting it into soluble silver complexes that are then washed away, leaving only the dyes. • The film is washed, stabilised, dried and cut. In the RA-4 process, the bleach and fix are combined. This is optional, and reduces the number of processing steps. Transparency films, except
Kodachrome, are developed using the
E-6 process, which has the following stages: • A black and white developer develops the silver in each image layer. • Development is stopped with a rinse or a stop bath. • The film is fogged in the reversal step. • The fogged silver halides are developed and
oxidized developing agents couple with the
dye couplers in each layer. • The film is bleached, fixed, washed/rinsed, stabilised and dried as described above. The oxidized developer then reacts with color couplers, which are molecules near the exposed silver halide crystals, to create color dyes which ultimately create a negative image, after this the film is bleached, fixed, washed, stabilized and dried. The dye is only created where the couplers are. Thus the development chemical must travel a short distance from the exposed silver halide to the coupler and create a dye there. The amount of dye created is small and the reaction only occurs near the exposed silver halide and thus doesn't spread throughout the entire layer. The developer diffuses into the film emulsion to react with its layers. This process happens simultaneously for all three colors of couplers in the film: cyan (in the red-sensitive layer in the film), magenta(for the green-sensitive layer), and yellow (for the blue-sensitive layer). Color film has these three layers, to be able to perform subtractive color mixing and be able to replicate colors in images. == Further processing ==