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Title: Collodion  
Author: World Heritage Encyclopedia
Language: English
Subject: Celluloid, Nitrocellulose, Cordite, Science and invention in Birmingham, Anne Isabella Thackeray Ritchie
Collection: Nitrates, Photographic Chemicals
Publisher: World Heritage Encyclopedia


Collodion is a flammable, syrupy solution of pyroxylin (a.k.a. "nitrocellulose", "cellulose nitrate", "flash paper", and "gun cotton") in ether and alcohol. There are two basic types: flexible; non-flexible. The flexible type is often used as a surgical dressing or to hold dressings in place. When painted on the skin, collodion dries to form a flexible nitrocellulose film. While it is initially colorless, it discolors over time. Non-flexible collodion is often used in theatrical make-up.


  • History 1
  • Wet-plate collodion photography 2
  • Dry collodion plates 3
  • Medical 4
  • Other uses 5
  • See also 6
  • References 7
  • External links 8


In 1846 Louis-Nicolas Ménard and Florès Domonte discovered that cellulose nitrate could be dissolved in ether.[1] They devised a mixture of ether (ethoxyethane) as the solvent and ethanol as a diluent that rendered cellulose nitrate into a clear gelatinous liquid. Collodion was first used medically as a dressing in 1847 by the Boston physician John Parker Maynard.[2][3] The solution was dubbed "collodion" (from the Greek κολλώδης (kollodis), gluey) by Dr. A.A. Gould of Boston, Massachusetts.[4]

Wet-plate collodion photography

Anonymous "A Veteran with his Wife", ambrotype
Julia Margaret Cameron's "Alice Liddell as a Young Woman" print from wet collodion negative

In 1851, Frederick Scott Archer, an Englishman, discovered that collodion could be used as an alternative to egg white (albumen) on glass photographic plates.[5] Collodion reduced the exposure time necessary for making an image. This method became known as the 'wet-plate collodion' or 'wet collodion' method. Collodion was relatively grainless and colorless, and allowed for one of the first high-quality duplication processes, also known as negatives. This process also produced two types of positives: the ambrotype; the tintype (also known as ferrotype).

The process required great skill and included the following steps:

  • Clean the glass plate (extremely well)
  • In the light, pour "salted" (iodide, bromide) collodion onto the glass plate, tilting it so it reaches each corner. The excess is poured back into the bottle.
  • Take the plate into a darkroom or orange tent (the plate is sensitive only to blue light) and immerse the plate in a silver nitrate sensitising bath (for 3–5 minutes)
  • Lift the plate out of the bath, drain and wipe the back, load it into a plate holder and protect from light with a dark slide.
  • Load the plate holder into the camera, withdraw the dark slide and expose the plate (can range from less than a second to several minutes)
  • Develop the plate (using a ferrous sulfate based developer)
  • Fix the plate (with potassium cyanide or sodium thiosulfate)

All of this was done in a matter of minutes, and some of the steps in (red) safelight conditions, which meant that the photographer had to carry the chemicals and a portable darkroom with him wherever he went. After these steps the plate needed rinsing in fresh water. Finally, the plate was dried and varnished using a varnish made from sandarac, alcohol and lavender oil.

Dark tents to be used outdoors consisted of a small tent that was tied around the photographer's waist. Otherwise a wheelbarrow or a horse and covered wagon were used.

Dry collodion plates

Richard Hill Norris, a doctor of medicine and professor of physiology at Queen's College, Birmingham (a predecessor college of Birmingham University),[6] is generally credited with the first development of dry collodion plate in the 1860s. In 1894 he took out a new patent for dry plate used in photography.


Other uses

  • Collodion is widely used to glue electrodes to the head for electro-encephalography.
  • Non-flexible collodion is used in theatrical makeup for various effects. When applied to the skin, it shrinks as the solvent (usually ether or alcohol) evaporates, causing wrinkles and is used to simulate old age, or scars.
  • Collodion is used in the cleaning of optics such as telescope mirrors. The collodion is applied to the surface of the optic, usually in two or more layers. Sometimes a piece of thin cloth is applied between the layers, to hold the collodion together for easy removal. After the collodion dries and forms a solid sheet covering the optic, it is carefully peeled away taking contamination with it.
  • Collodion is a pure type of pyroxylin used to embed specimens which will be examined under a microscope.
  • While in Paris René Dagron became familiar with the collodion wet plate and collodion-albumen dry plate processes which he would later adapt to his microfilm and Stanhope production techniques.
  • Collodion was used by Alfred Nobel in his development of blasting gelatin, a more powerful, flexible, and water resistant variation on his highly successful product, Dynamite.
  • Some types of nail polish also contain collodion.

See also


  1. ^ Initially, the French referred to cellulose nitrate as xyloïdine and pyroxyline:
    • Pelouze announced to the French Academy of Sciences that Ménard and Domonte had discovered that cellulose nitrate could be dissolved in ether in: Pelouze (9 November 1846) "Observations sur la xyloïdine," Comptes rendus … , 23 : 861-862.
    • Ménard and Florès Domonte (1846) "Sur la pyroxyline" (On pyroxyline), Comptes rendus … , 23 : 1187-1188.
  2. ^ John Parker Maynard (1848) "Discovery and application of the new liquid adhesive plaster," The Boston Medical and Surgical Journal, 38 : 178-183.
  3. ^ This claim was contested by the Swiss chemist Christian Friedrich Schönbein, one of several investigators who had independently discovered nitrocellulose. See: C. F. Schoenbein (1849) "On ether glue or liquor constringens; and its uses in surgery," The Lancet, 1 : 289-290.
  4. ^ John P. Maynard (1867) "Collodion," The Boston Medical and Surgical Journal, 75 : 36-39; see footnote on page 36.
  5. ^ Frederick Scott Archer (March 1851) "On the use of collodion in photography," The Chemist … , new series, 2 (19) : 257-258.
  6. ^

External links

Rev. David Leavitt, ca. 1855, wet collodion negative, Library of Congress
  • WATCH: George Eastman House "The Collodion – Photographic Processes"
  • The Getty Museum: The Wet Collodion Process
  • Step by Step Wet Plate Photography
  • Making a Photograph During the Brady Era
  • John Coffer
  • Collodion
  • Collodion: Material Safety Data Sheet
  • Compound W data sheet
  • Civil War Reenactors Photography Forum
  • Getting started in Wet Plate Collodion Photography
  • Origins and the process of creating a collodion print
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