Joseph Bancroft Reade


Rev. Joseph Bancroft Reade FRS FRMS was an English clergyman, amateur scientist and pioneer of photography. A gentleman scientist, Reade co-founded the Royal Microscopical Society and the Royal Meteorological Society.

Early life

Born Leeds, he was the eldest of six sons and two daughters. His father, Thomas Shaw Bancroft Reade, was a merchant and Christian pamphleteer who actively supported the British and Foreign Bible Society. His mother, Sarah née Paley, was a relative of William Paley. He was educated at Leeds Grammar School, Trinity College, Cambridge and Gonville and Caius College, Cambridge, graduating in 1825.

Clerical career

Reade was ordained a deacon in the Church of England and became curate of Kegworth, Leicestershire. He married Charlotte Dorothy Farish, niece of William Farish in 1825, and the couple parented three children, none of whom lived beyond 21 years of age. Reade was ordained priest in 1826 and took his master's degree in 1828.
In 1829, Reade became curate of Halifax Parish Church where he befriended amateur meteorologist John Waterhouse, who would later invent the Waterhouse stop. In 1832 he took a part-time curacy at Harrow Weald, and in 1834 became proprietor of a school in Peckham.
John Lee and the Royal Astronomical Society jointly owned the advowson of the parish of Stone, Buckinghamshire and they appointed Reade vicar in 1839. In his 20 years as incumbent, Reade established a school and an astronomical observatory.
In 1859, Reade became vicar of Ellesborough, Buckinghamshire, and from 1863 until his death, rector of Bishopsbourne, near Canterbury.Towards the end of his life, Reade suffered from cancer and died from jaundice at the Bishopsbourne rectory. He was buried at St Mary's Church.

Scientific work

Reade was an enthusiastic amateur scientist. His first work was in optics and, in particular, microscopy. His first scientific paper in 1836 was on the use of a pair of convex lenses to focus light on a microscopic specimen without overheating. Reade was interested in chemistry and botany, performing microscopic investigations of various specimens including microfossils. His knowledge of metal salts led to an 1846 ink patent. A design for a telescope eyepiece won a medal at The Great Exhibition in 1851, and he designed a condenser, known as "Reade's kettledrum", and a novel prism.
In September 1839, Reade was one of 17 gentlemen scientists who met at 50 Wellclose Square, London, the home of John Thomas Quekett, to found the Microscopical Society of London, which later became the Royal Microscopical Society.

Photography

Reade was present at the Royal Society to hear William Fox Talbot's first presentations on photography in February 1839 and immediately started to experiment himself.
Reade was also at the Royal Society on 14 March to hear Sir John Herschel's seminal paper on photography in which Herschel proposed sodium hyposulfite as a fixer.
Herschel also made some observations on the light sensitivity of silver carbonate, nitrate and acetate as being superior to silver chloride.
Reade began experimenting with light-sensitive substances and soon discovered that he could get much better results when the silver salt was applied not to paper but to tanned leather. Allegedly, he used his wife's mittens for experiments. Reade conjectured that the difference in sensitivity was caused by gallic acid used for tanning, and indeed by treating paper with gallic acid before soaking it in silver nitrate solution, he could drastically increase the sensitivity.
In 1854, Reade testified at the Talbot v. Laroche trial, where Laroche tried to prove that Talbot's calotype patent was invalid because the use of gallic acid was first discovered by Reade, from whom Talbot learned it. In his testimony, however, Reade upheld Talbot's originality, explaining that while he had used gallic acid for preprocessing the light-sensitive paper, Talbot was the first to discover that gallic acid can reveal the latent image in an already exposed paper, i.e. he was the first to develop a photographic material. In fact, Reade erred in making the latter broad statement, as the earlier Daguerreotype process also involved the chemical development of an initially invisible latent image.

Offices and honours