Science Museum Group Journal (Oct 2023)
Photography and electroplate in 1840s Birmingham
Abstract
Industrial improvements to silver plating through the work of electroplating firms such as Elkington, Mason and Co are an important part of our industrial heritage, bridging art, science and industry to form a significant portion of museum collections. However, the impact of this development of silverplating technology upon photography has not previously been explored. This article details the improvements that electroplated silver brought to the daguerreotype photographic process and to the manufacture of daguerreotype plates in Birmingham, offering a material reappraisal of the inventive qualities of the daguerreotype within a wider narrative of industrial manufacture. Chemists in 1840s Birmingham were developing photographic techniques and silverplating processes at the Birmingham Royal School of Medicine and Surgery, later Queens College on Paradise Street. These scientists – George Shaw (1818–1904) and John Percy (1817–1889) – had detailed, tactile knowledge of the convergent chemistry and processes in both arenas. Developments in the industrial manufacture of silverplate in 1840s Birmingham created significant improvements to the materials used in the daguerreotype photographic process, making photography more viable as a commercial venture. Shaw planned an early portrait studio and worked with early innovators in electroplating techniques the Marrian brothers (Francis (1802–1893) and Benjamin James Pratt Marrian (1811–1891)) using magneto-plate technology developed by another Birmingham industrial entrepreneur John Woolrich (c. 1791–1843). This potential studio did not emerge due to restrictive patenting and licensing restrictions around the practice of daguerreotype photography, yet extant daguerreotypes tell a story of improvements stemming from technical innovation. These daguerreotypes situate industrial Birmingham as a place of innovation and invention and place the daguerreotype photographic process within narratives of industrial improvements and radically inventive manufacturing practices. Key to the analysis presented here is the role of the recreation of historic techniques in historical research and the value of acquiring tactile knowledge of the behaviour of materials during the processes explored. Here practical experiments allowed the author to look beyond the surviving daguerreotypes via material knowledge to the circumstances and social environment of production. This approach revealed new knowledge which offers an alternative reading of the history of objects through their materials.
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