Mordançage is an alternative photographic process that alters silver gelatin prints to give them a degraded effect. The mordançage solution works in two ways: it chemically bleaches the print so that it can be redeveloped, and it lifts the black areas of the emulsion away from the paper giving the appearance of veils. Once the emulsion is lifted, it can then be removed or manipulated depending on the desired outcome. Areas where the emulsion was removed appear to be in relief. These prints can become oxidized during their creation, further altering the tonality of the image.
History
Alternative photography |
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Mordançage was created by Jean-Pierre Sudre during the 1960s.[1] While he is credited with the creation of Mordançage, it is based on a late 19th-century process known as etch-bleach. This process has also been referred to as bleach-etch, gelatin relief, or reverse relief.[2] Etch-bleach was first documented in 1897 by Paul Liesegang[3] and was originally used as a reversal process for film negatives.[2] Within a year, a man named Andresen suggested using hydrogen peroxide and hydrochloric acid in the process in the place of ammonium persulfate.[4] Later references to the etch-bleach process show a chemical composition that is very close to that of mordançage - the only difference being the use of citric acid in place of glacial acetic acid.[5] Sudre refined this technique and dubbed it "mordançage." His process has since been adopted by some of his students, and has spread from there.[6]: 314 Sudre's American student, Elizabeth Opalenik, created what is now known as the "draping effect" in the Mordançage process.[7]
Chemistry
The mordançage solution consists of the following materials.[6]: 316 [8]
- 10 g copper(II) chloride
- 50 mL glacial acetic acid
- 25 mL 30%-35% hydrogen peroxide
- distilled water to make 1 liter
Process
The mordançage process can be used to treat either fiber-based or resin-coated paper. After making a silver gelatin print, the photograph is placed in the mordançage solution, and left in until the image has bleached. The hydrogen peroxide in the solution softens the gelatin in the emulsion. Next, the chemicals are rinsed off of the print. Some people choose to remove the parts of the emulsion that have started to disintegrate while washing; these areas will be the darkest portions of the print.
After cleaning, the print is redeveloped. A variety of fresh or exhausted developers can be used at various dilutions, as well as some toners.[2][9] Different developers and dilutions will result in different tonalities in the paper.[10] Areas where the emulsion has been degraded may redevelop unevenly. Emulsion removal can cause a reversal effect when redeveloped. Once the image has been redeveloped, it is rinsed off again. The print can be fixed in fixer at this point. Neglecting to fix the image can lead to the oxidation of the print, however these color shifts can be a desirable effect.
A final washing of the print is performed after fixing. Any veils that have developed are fragile, which makes the print difficult to wash without causing them to pull away from the paper. Because of this difficulty, mordançage prints will often remain imbued with chemicals. The chemical saturation of the paper can lead to these prints contaminating work areas and other photographs.
While the process often follows this progression, it can be altered. Development of the print can be halted at any point in the process through the use of stop bath.[6]: 317 Alternatively, sometimes prints will be bleached and redeveloped multiple times until the artist is happy with the results.[9]
Preservation
Photographs that have not been properly fixed and washed can shift color over time through oxidation and acid migration. As with any photographic print, mordançage prints are degraded by exposure to light, humidity, and high temperatures.[11]: 82–83, 101 The mordançage solution is acidic, so these prints can contaminate other materials. Photographs can be interleaved with alkaline buffered paper, or sleeved in polyethylene to help prevent acid migration.[11]: 56, 249–250
References
- ↑ Brierly, Dean (June 2008). "Mordançage". Black & White Magazine. No. 59. Novato, CA: Ross Periodicals. p. 48.
- 1 2 3 Anderson, Christina Z. (2006). Experimental Photography Workbook. Bozeman: Christina Z. Anderson. pp. 147–150.
- ↑ Liesegang, Paul (1898). Die Collodion Verfahren mit Jod und Bromsalzen. Leipzig.
- ↑ Friedman, Joseph S. (1945). The History of Color Photography. New York: Focal Press. p. 478.
- ↑ Stroebel, Leslie D.; Richard D. Zakia (1993). "Etch-bleach". The Focal Encyclopedia of Photography. Boston: Focal Press. p. 282.
- 1 2 3 James, Christopher (2002). The Book of Alternative Photographic Processes. New York: Delmar. ISBN 0-7668-2077-7.
- ↑ "In Focus: Elizabeth Opalenik". underexposed. Retrieved 2016-10-04.
- ↑ Fudala, Caroline; Jones, Rebecca M. (2019). "The Chemistry of Mordançage, a Historic Photographic Process". Analytical Chemistry. 91 (22): 14482–14488. doi:10.1021/acs.analchem.9b03205. PMID 31621294. S2CID 204756972.
- 1 2 Baily, Jonathan. "Mordançage Background and Process Notes". Jonathan Baily: Writings. Retrieved 7 April 2011.
- ↑ Eshbaugh, Mark L. "Mordançage Process". Retrieved 7 April 2011.
- 1 2 Ritzenthaler, Mary Lynn (2010). Preserving Archives & Manuscripts. Chicago: Society of American Archivists.