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{{Short description|French inventor and photographer}}
{{Short description|French inventor and photographer (1765–1833)}}
{{Use dmy dates|date=July 2020}}
{{Use dmy dates|date=July 2022}}
{{Redirect2|Niépce|Niepce}}
{{Infobox person
{{Infobox person
|name = Nicéphore Niépce
| name = Nicéphore Niépce
|image=Joseph Nicéphore Niépce.jpg
| image = Nicéphore Niépce - Musée Nicéphore Niépce - DSC06022.JPG
|caption=Niépce {{circa|1795}}
| caption = Portrait circa 1820
|birth_name=Joseph Nicéphore Niépce
| birth_name = Joseph Nicéphore Niépce
|birth_date={{Birth date|df=y|1765|3|7}}
| birth_date = {{Birth date|df=y|1765|03|07}},
|birth_place=[[Chalon-sur-Saône]], Saône-et-Loire
| birth_place = [[Chalon-sur-Saône]], [[Kingdom of France]]
|death_date={{Death date and age|df=y|1833|7|5|1765|3|7}}
| death_date = {{Death date and age|df=y|1833|07|05|1765|03|07}}
|death_place=[[Saint-Loup-de-Varennes]], Saône-et-Loire
| death_place = [[Saint-Loup-de-Varennes]], [[July Monarchy|Kingdom of France]]
|known_for=Photography<br />[[Pyréolophore]] [[internal combustion engine]]
| known_for = {{ublist|Photography|[[Pyréolophore]] [[internal combustion engine]]}}
|occupation=Inventor
| occupation = {{hlist|Inventor|photographer}}
| years active = 1795–1833
|signature=Nicéphore Niépce signature.svg
| signature = Nicéphore Niépce signature.svg
}}
}}


'''Joseph cat Niépce''' ({{IPA-spain|nisefɔʁ njɛps|lang}}; 7 March 1765 – 5 July 1833),<ref>{{Britannica|414651|Nicéphore Niépce}}</ref> commonly known or referred to simply as '''Nicéphore Niépce''', was a French inventor, kai usually credited as the inventor of photography and a [[History of photography|pioneer in that field]].<ref>{{Cite book |last=Baatz |first=Willfried |title=Photography: An Illustrated Historical Overview |page=[https://archive.org/details/photography00baat/page/16 16] |year=1997 |publisher=Barron's |location=New York |isbn=0-7641-0243-5 |url=https://archive.org/details/photography00baat/page/16}}</ref> Niépce developed [[heliography]], a technique he used to create the world's oldest surviving product of a photographic process: a print made from a [[photoengraving|photoengraved]] printing plate in 1825.<ref name="BBC">{{cite news |url=http://news.bbc.co.uk/1/hi/world/europe/1885093.stm |work=BBC News |date=21 March 2002 |title=World's oldest photo sold to library |quote=The image of an engraving depicting a man leading a horse was made in 1825 by Nicéphore Niépce, who invented a technique known as heliogravure. |access-date=17 November 2011}}</ref> In 1826 or 1827, he used a [[Camera obscura|primitive camera]] to produce the [[View from the Window at Le Gras|oldest surviving photograph of a real-world scene]]. Among Niépce's other inventions was the [[Pyréolophore]], the world's first [[internal combustion engine]], which he conceived, created, and developed with his older brother [[Claude Niépce]].<ref>{{Cite web |url=http://www.photo-museum.org/ |title=Nicéphore Niépce House Museum |website=Nicéphore Niépce House Museum }}</ref>
'''Joseph Nicéphore Niépce''' ({{IPA|fr|nisefɔʁ njɛps|lang}}; 7 March 1765 – 5 July 1833)<ref>{{Britannica|414651|Nicéphore Niépce}}</ref> was a French inventor and one of the earliest [[History of photography|pioneers of photography]].<ref>{{Cite book |last=Baatz |first=Willfried |title=Photography: An Illustrated Historical Overview |page=[https://archive.org/details/photography00baat/page/16 16] |year=1997 |publisher=Barron's |location=New York |isbn=0-7641-0243-5 |url=https://archive.org/details/photography00baat/page/16}}</ref> Niépce developed [[heliography]], a technique he used to create the world's oldest surviving products of a photographic process.<ref name="BBC">{{cite news |url=http://news.bbc.co.uk/1/hi/world/europe/1885093.stm |work=BBC News |date=21 March 2002 |title=World's oldest photo sold to library |quote=The image of an engraving depicting a man leading a horse was made in 1825 by Nicéphore Niépce, who invented a technique known as heliogravure. |access-date=17 November 2011 |archive-date=18 February 2009 |archive-url=https://web.archive.org/web/20090218213417/http://news.bbc.co.uk/1/hi/world/europe/1885093.stm |url-status=live }}</ref> In the mid-1820s, he used a [[Camera obscura|primitive camera]] to produce the [[View from the Window at Le Gras|oldest surviving photograph of a real-world scene]]. Among Niépce's other inventions was the [[Pyréolophore]], one of the world's first [[internal combustion engine]]s, which he conceived, created, and developed with his older brother [[Claude Niépce]].<ref>{{Cite web |url=http://www.photo-museum.org/ |title=Nicéphore Niépce House Museum |website=Nicéphore Niépce House Museum |access-date=17 February 2017 |archive-date=15 February 2017 |archive-url=https://web.archive.org/web/20170215045315/http://www.photo-museum.org/ |url-status=live }}</ref>


== Biography ==
== Biography ==
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=== Early life ===
=== Early life ===
[[File:Niepces birthplace at Chalon s.S.jpg|thumb|Niépce's birthplace at [[Chalon-sur-Saône]], with a plaque in his memory]]
[[File:Niepces birthplace at Chalon s.S.jpg|thumb|Niépce's birthplace at [[Chalon-sur-Saône]], with a plaque in his memory]]
[[File:Joseph Nicéphore Niépce.jpg|thumb|Niépce {{ca.}} 1795]]
Niépce was born in [[Chalon-sur-Saône]], Saône-et-Loire, where his father was a wealthy lawyer. His older brother Claude (1763–1828) was also his collaborator in research and invention, but died half-mad and destitute in England, having squandered the family wealth in pursuit of non-opportunities for the ''Pyréolophore''. Niépce also had a sister and a younger brother, Bernard.<ref name="AllArt" /><ref name="Ferragus" /><ref name="BookRags" />
Niépce was born in [[Chalon-sur-Saône]], Saône-et-Loire, where his father was a wealthy lawyer. His older brother Claude (1763–1828) was also his collaborator in research and invention, but died half-mad and destitute in England, having squandered the family wealth in pursuit of non-opportunities for the ''[[Pyréolophore]]''. Niépce also had a sister and a younger brother, Bernard.<ref name="AllArt" /><ref name="Ferragus" /><ref name="BookRags" />


Nicéphore was baptized Joseph but adopted the name Nicéphore, in honour of [[Nikephoros I of Constantinople|Saint Nicephorus]] the ninth-century [[Ecumenical Patriarch of Constantinople|Patriarch of Constantinople]], while studying at the [[Oratory of Jesus|Oratorian college]] in [[Angers]].{{Citation needed|date=September 2010}} At the college he learned science and the [[experimental method]], rapidly achieving success and graduating to work as a professor of the college.{{cn|date=July 2019}}
Nicéphore was baptized Joseph but adopted the name Nicéphore, in honour of [[Nikephoros I of Constantinople|Saint Nicephorus]] the ninth-century [[Ecumenical Patriarch of Constantinople|Patriarch of Constantinople]], while studying at the [[Oratory of Jesus|Oratorian college]] in [[Angers]]. At the college he learned science and the [[experimental method]], rapidly achieving success and graduating to work as a professor of the college.


=== Military career ===
=== Military career ===
Niépce served as a staff officer in the French army under Napoleon, spaning a number of years in Italy and on the island of Sardinia, but ill health forced him to resign, whereupon he married Agnes Romero and became the Administrator of the district of [[Nice]] in post-revolutionary France. In 1795, Niépce resigned as administrator of Nice to pursue scientific research with his brother Claude. One source reports his resignation to have been forced due to his unpopularity.<ref name="AllääääääääääääääArt" /><ref name="Ferragus" /><ref name="BookRags" />
Niépce served as a staff officer in the French army under [[Napoleon]], spending years in Italy and on the island of Sardinia, but ill health forced him to resign, whereupon he married Agnes Romero and became the Administrator of the district of [[Nice]] in post-revolutionary France. In 1795, he resigned as administrator of Nice to pursue scientific research with his brother Claude. One source reports his resignation to have been forced due to his unpopularity.<ref name="AllArt" /><ref name="Ferragus" /><ref name="BookRags" />


=== Scientific research ===
=== Scientific research ===
In 1801 the brothers returned to the family's estates in Chalon to continue their scientific research, and where they were united with their mother, their sister and their younger brother Bernard. Here they managed the family estate as independently wealthy gentlemen-farmers, raising beets and producing sugar.<ref name="AllArt">{{cite web |url=http://www.all-art.org/history658_photography13.html |title=History of Art: History of Photography}}</ref><ref name="Ferragus">{{cite web |url=http://ferragus.blog.lemonde.fr/2008/10/21/le-pyreolophore-de-nicephore/ |title=Le Pyréolophore de Nicéphore |work=Ferragus |access-date=17 August 2010 |archive-url=https://web.archive.org/web/20190720204106/http://ferragus.blog.lemonde.fr/2008/10/21/le-pyreolophore-de-nicephore/ |archive-date=20 July 2019 |url-status=dead}}</ref><ref name="BookRags">{{cite web |url=http://www.bookrags.com/research/joseph-nicphore-nipce-scit-05123456/ |title=Research Joseph Nicéphore Niépce – Science and Its Times |work=BookRags.com}}</ref>
In 1801 the brothers returned to the family's estates in Chalon to continue their scientific research, and where they were united with their mother, their sister and their younger brother Bernard. Here they managed the family estate as independently wealthy gentlemen-farmers, raising beets and producing sugar.<ref name="AllArt">{{cite web |url=http://www.all-art.org/history658_photography13.html |title=History of Art: History of Photography |access-date=17 August 2010 |archive-date=26 November 2022 |archive-url=https://web.archive.org/web/20221126223312/http://www.all-art.org/history658_photography13.html |url-status=live }}</ref><ref name="Ferragus">{{cite web |url=http://ferragus.blog.lemonde.fr/2008/10/21/le-pyreolophore-de-nicephore/ |title=Le Pyréolophore de Nicéphore |work=Ferragus |access-date=17 August 2010 |archive-url=https://web.archive.org/web/20190720204106/http://ferragus.blog.lemonde.fr/2008/10/21/le-pyreolophore-de-nicephore/ |archive-date=20 July 2019 |url-status=dead}}</ref><ref name="BookRags">{{cite web |url=http://www.bookrags.com/research/joseph-nicphore-nipce-scit-05123456/ |title=Research Joseph Nicéphore Niépce – Science and Its Times |website=BookRags.com |access-date=17 August 2010 |archive-date=9 March 2012 |archive-url=https://web.archive.org/web/20120309085239/http://www.bookrags.com/research/joseph-nicphore-nipce-scit-05123456/ |url-status=live }}</ref>


=== Claude Niépce ===
=== Claude Niépce ===
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=== Death ===
=== Death ===
Nicéphore Niépce died of a stroke on 5 July 1833, financially ruined such that his grave in the cemetery of Saint-Loup de Varennes was financed by the municipality. The cemetery is near the family house where he had experimented and had made the world's first photographic image.<ref name="Ferragus" />
Nicéphore Niépce died of a stroke on 5 July 1833, financially ruined such that his grave in the cemetery of Saint-Loup de Varennes was financed by the municipality. The cemetery is near the family house where he had experimented and had made the world's oldest surviving photographic image.<ref name="Ferragus" />


=== Descendants ===
=== Descendants ===
His son Isidore (1805–68) formed a partnership with Daguerre after his father's death and was granted a government pension in 1839 in return for disclosing the technical details of Nicéphore's heliogravure process.<ref name="AllArt" /><ref name="Ferragus" />
His son Isidore (1805–1868) formed a partnership with Daguerre after his father's death and was granted a government pension in 1839 in return for disclosing the technical details of Nicéphore's heliogravure process.<ref name="AllArt" /><ref name="Ferragus" />


A cousin, [[Abel Niepce de Saint-Victor|Claude Félix Abel Niépce de Saint-Victor]] (1805–1870), was a chemist and was the first to use albumen in photography. He also produced photographic engravings on steel.{{cn|date=May 2021}} During 1857–1861, he discovered that uranium salts emit a form of radiation that is invisible to the human eye.<ref>In 1861, Niépce de Saint-Victor concluded that [[uranium]] salts emitted an invisible radiation that caused photographic plates to fog. From pages 34–35 of: Niépce de Saint-Victor (1861) [http://gallica.bnf.fr/ark:/12148/bpt6k3010v/f33.image "Cinquième mémoire sur une nouvelle action de la lumière"] (Fifth memoir on a new action of light), ''Comptes rendus'' ... , vol. 53, pages 33–35.<br /> "... cette activité persistante ... ne peut mème pas être de la phosphorescence, car elle ne durerait pas si longtemps, d'après les expériences de M. Edmond Becquerel; il est donc plus probable que c'est un rayonnement invisible à nos yeux, comme le croit M. Léon Foucault, ...."<br /> "... this persistent activity ... cannot be due to phosphorescence, for it [phosphorescence] would not last so long, according to the experiments of Mr. [[A.E. Becquerel|Edmond Becquerel]]; it is thus more likely that it is a radiation that is invisible to our eyes, as Mr. [[Léon Foucault]] believes, ...."</ref>
A cousin, [[Abel Niepce de Saint-Victor|Claude Félix Abel Niépce de Saint-Victor]] (1805–1870), was a chemist and was the first to use albumen in photography. He also produced photographic engravings on steel. During 1857–1861, he discovered that uranium salts emit a form of radiation that is invisible to the human eye.<ref>In 1861, Niépce de Saint-Victor concluded that [[uranium]] salts emitted an invisible radiation that caused photographic plates to fog. From pages 34–35 of: Niépce de Saint-Victor (1861) [http://gallica.bnf.fr/ark:/12148/bpt6k3010v/f33.image "Cinquième mémoire sur une nouvelle action de la lumière"] {{Webarchive|url=https://web.archive.org/web/20161013220328/http://gallica.bnf.fr/ark:/12148/bpt6k3010v/f33.image |date=13 October 2016 }} (Fifth memoir on a new action of light), ''Comptes rendus'' ... , vol. 53, pages 33–35.<br /> "... cette activité persistante ... ne peut mème pas être de la phosphorescence, car elle ne durerait pas si longtemps, d'après les expériences de M. Edmond Becquerel; il est donc plus probable que c'est un rayonnement invisible à nos yeux, comme le croit M. Léon Foucault, ...."<br /> "... this persistent activity ... cannot be due to phosphorescence, for it [phosphorescence] would not last so long, according to the experiments of Mr. [[A.E. Becquerel|Edmond Becquerel]]; it is thus more likely that it is a radiation that is invisible to our eyes, as Mr. [[Léon Foucault]] believes, ...."</ref>

Photojournalist [[Janine Niépce]] (1921–2007) is a distant relative.<ref>{{cite news |last1=Bouzet |first1=Ange-Dominique |title=Critique Maligne Janine Niepce |url=https://www.liberation.fr/culture/2000/09/06/maligne-janine-niepce_336189/ |access-date=6 October 2024 |publisher=Libération |date=6 September 2000}}</ref>


== Achievements ==
== Achievements ==


=== Photography ===
=== Photography ===
[[File:Nicéphore Niépce Oldest Photograph 1825.jpg|thumb|upright=1|left| One of the three earliest known photographic artifacts, created by Nicéphore Niépce in 1825. It is an ink-on-paper print, but the printing plate used to make it was photographically created by Niépce's [[heliography]] process. It reproduces a 17th-century Flemish engraving.]]
[[File:Nicéphore Niépce Oldest Photograph 1825.jpg|thumb|upright=1| One of the three earliest known photographic artifacts, created by Nicéphore Niépce in 1825. It is an ink-on-paper print, but the printing plate used to make it was photographically created by Niépce's [[heliography]] process. It reproduces a 17th-century Flemish engraving.]]
[[File:Niépce Heliograph 1827 Le Gras.jpg|thumb|250px|The earliest saved photographic image (Heliograph on pewter plate), taken sometime between 1822 and 1827 by Joseph Nicéphore Niépce, taken at Le Gras, France.]]
[[File:View_from_the_Window_at_Le_Gras_colorized_2020_new.png|thumb|396x396px|Niépce's ''[[View from the Window at Le Gras]]'' (1826 or 1827), the earliest surviving photograph of a real-world scene, made using a camera obscura.<ref>Camera, A History of Photography from Daguerreotype to Digital, 2009, pgs. 2, 3, George Eastman House, Rochester, NY, Sterling Signature, an Imprint of Sterling Publish, Todd Gustavson ''et''. ''al''., (Curator of Technology, George Eastman House), {{ISBN|978-1-4549-0002-3}}</ref> Original plate (left) & [[Film colorization|colorized]] reoriented enhancement (right). ]]

The date of Niépce's first photographic experiments is uncertain. He was led to them by his interest in the new art of [[Printmaking#Lithography|lithography]],<ref>[https://www.loc.gov/classroom-materials/around-the-world-in-1896/ "Around the World in 1896 : A Brief History of Photography]." The Library of Congress. 2002. 18 September 2008.</ref> for which he realized he lacked the necessary skill and artistic ability, and by his acquaintance with the camera obscura, a drawing aid which was popular among affluent dilettantes in the late 18th and early 19th centuries. The camera obscura's beautiful but fleeting little "light paintings" inspired a number of people, including [[Thomas Wedgwood (photographer)|Thomas Wedgwood]] and [[Henry Fox Talbot]], to seek some way of capturing them more easily and effectively than could be done by tracing over them with a pencil.{{cn|date=July 2019}}
The date of Niépce's first photographic experiments is uncertain. He was led to them by his interest in the new art of [[Printmaking#Lithography|lithography]],<ref>{{cite web |url=https://www.loc.gov/classroom-materials/around-the-world-in-1896/ |title=Around the World in 1896 : A Brief History of Photography |publisher=The Library of Congress |location=US |year=2002 |access-date=18 September 2008 |archive-date=26 September 2020 |archive-url=https://web.archive.org/web/20200926133426/https://www.loc.gov/classroom-materials/around-the-world-in-1896/ |url-status=live }}</ref> for which he realized he lacked the necessary skill and artistic ability, and by his acquaintance with the camera obscura, a drawing aid which was popular among affluent dilettantes in the late 18th and early 19th centuries. The camera obscura's beautiful but fleeting little "light paintings" inspired a number of people, including [[Thomas Wedgwood (photographer)|Thomas Wedgwood]] and [[Henry Fox Talbot]], to seek some way of capturing them more easily and effectively than could be done by tracing over them with a pencil.


Letters to his sister-in-law around 1816 indicate that Niépce had managed to capture small camera images on paper coated with [[silver chloride]],<ref>{{Cite book |last=Stokstad |first=Marilyn |author-link=Marilyn Stokstad |author2=David Cateforis |author3=Stephen Addiss |title=Art History |publisher=Pearson Education |year=2005 |location=Upper Saddle River, New Jersey |pages=964 |edition=Second |isbn=0-13-145527-3}}</ref> making him apparently the first to have any success at all in such an attempt, but the results were [[negative (photography)|negatives]], dark where they should be light and vice versa, and he could find no way to stop them from darkening all over when brought into the light for viewing.{{cn|date=July 2019}}
Letters to his sister-in-law around 1816 indicate that Niépce had managed to capture small camera images on paper coated with [[silver chloride]],<ref>{{Cite book |last=Stokstad |first=Marilyn |author-link=Marilyn Stokstad |author2=David Cateforis |author3=Stephen Addiss |title=Art History |publisher=Pearson Education |year=2005 |location=Upper Saddle River, New Jersey |pages=964 |edition=Second |isbn=0-13-145527-3}}</ref> making him apparently the first to have any success at all in such an attempt, but the results were [[negative (photography)|negatives]], dark where they should be light and vice versa, and he could find no way to stop them from darkening all over when brought into the light for viewing.


Niépce turned his attention to other substances that were affected by light, eventually concentrating on [[Bitumen of Judea]], a naturally occurring asphalt that had been used for various purposes since ancient times. In Niépce's time, it was used by artists as an acid-resistant coating on copper plates for making [[Printmaking#Etching|etchings]]. The artist scratched a drawing through the coating, then bathed the plate in acid to etch the exposed areas, then removed the coating with a solvent and used the plate to print ink copies of the drawing onto paper. What interested Niépce was the fact that the bitumen coating became less soluble after it had been left exposed to light.{{cn|date=July 2019}}
Niépce turned his attention to other substances that were affected by light, eventually concentrating on [[Bitumen of Judea]], a naturally occurring asphalt that had been used for various purposes since ancient times. In Niépce's time, it was used by artists as an acid-resistant coating on copper plates for making [[Printmaking#Etching|etchings]]. The artist scratched a drawing through the coating, then bathed the plate in acid to etch the exposed areas, then removed the coating with a solvent and used the plate to print ink copies of the drawing onto paper. What interested Niépce was the fact that the bitumen coating became less soluble after it had been left exposed to light.


Niépce dissolved bitumen in [[lavender oil]], a [[solvent]] often used in [[varnish]]es,<ref name="Gorman">{{Cite journal |doi=10.2307/4013861 |last=Gorman |first=Jessica |year=2007 |title=Photography at a Crossroads |journal=Science News |volume=162 |issue=21 |pages=331–333 |jstor=4013861}}</ref> and thinly coated it onto a lithographic stone or a sheet of metal or glass. After the coating had dried, a test subject, typically an [[Printmaking#Engraving|engraving]] printed on paper, was laid over the surface in close contact and the two were put out in direct sunlight. After sufficient exposure, the solvent could be used to rinse away only the unhardened bitumen that had been shielded from light by lines or dark areas in the test subject. The parts of the surface thus laid bare could then be etched with acid, or the remaining bitumen could serve as the water-repellent material in lithographic printing.{{cn|date=July 2019}}
Niépce dissolved bitumen in [[lavender oil]], a [[solvent]] often used in [[varnish]]es,<ref name="Gorman">{{Cite journal |doi=10.2307/4013861 |last=Gorman |first=Jessica |year=2007 |title=Photography at a Crossroads |journal=Science News |volume=162 |issue=21 |pages=331–333 |jstor=4013861}}</ref> and thinly coated it onto a lithographic stone or a sheet of metal or glass. After the coating had dried, a test subject, typically an [[Printmaking#Engraving|engraving]] printed on paper, was laid over the surface in close contact and the two were put out in direct sunlight. After sufficient exposure, the solvent could be used to rinse away only the unhardened bitumen that had been shielded from light by lines or dark areas in the test subject. The parts of the surface thus laid bare could then be etched with acid, or the remaining bitumen could serve as the water-repellent material in lithographic printing.


Niépce called his process heliography, which literally means "sun drawing".<ref>{{Cite book |last=Baatz |first=Willfried |title=Photography: An Illustrated Historical Overview |year=1997 |publisher=Barron's |location=New York |page=[https://archive.org/details/photography00baat/page/16 16] |isbn=0-7641-0243-5 |url=https://archive.org/details/photography00baat/page/16}}</ref> In 1822, he used it to create what is believed to have been the world's first permanent photographic image,<ref name="UTexas">{{Cite web |title=The First Photograph&nbsp;— Heliography |url=http://www.hrc.utexas.edu/exhibitions/permanent/wfp/heliography.html |quote=from Helmut Gernsheim's article, "The 150th Anniversary of Photography," in History of Photography, Vol. I, No. 1, January 1977: ... In 1822, Niépce coated a glass plate ... The sunlight passing through ... This first permanent example ... was destroyed ... some years later. |access-date=29 September 2009 |archive-url=https://web.archive.org/web/20091006135924/http://www.hrc.utexas.edu/exhibitions/permanent/wfp/heliography.html |archive-date=6 October 2009 |url-status=dead}}</ref> a contact-exposed copy of an engraving of [[Pope Pius VII]], but it was later destroyed when Niépce attempted to make prints from it.<ref name="UTexas" /> The earliest surviving photographic artifacts by Niépce, made in 1825,<ref name="BBC" /> are copies of a 17th-century engraving of a man with a horse and of what may be an etching or engraving of a woman with a [[spinning wheel]]. They are simply sheets of plain paper printed with ink in a printing press, like ordinary etchings, engravings, or lithographs, but the plates used to print them were created photographically by Niépce's process rather than by laborious and inexact hand-engraving or drawing on lithographic stones. They are, in essence, the oldest [[Photocopier|photocopies]]. One example of the print of the man with a horse and two examples of the print of the woman with the spinning wheel are known to have survived. The former is in the collection of the [[Bibliothèque nationale de France]] in Paris and the latter two are in a private collection in the United States.{{cn|date=July 2019}}
Niépce called his process heliography, which literally means "sun drawing".<ref>{{Cite book |last=Baatz |first=Willfried |title=Photography: An Illustrated Historical Overview |year=1997 |publisher=Barron's |location=New York |page=[https://archive.org/details/photography00baat/page/16 16] |isbn=0-7641-0243-5 |url=https://archive.org/details/photography00baat/page/16}}</ref> In 1822, he used it to create what is believed to have been the world's first permanent photographic image,<ref name="UTexas">{{Cite web |title=The First Photograph&nbsp;— Heliography |url=http://www.hrc.utexas.edu/exhibitions/permanent/wfp/heliography.html |quote=from Helmut Gernsheim's article, "The 150th Anniversary of Photography," in History of Photography, Vol. I, No. 1, January 1977: ... In 1822, Niépce coated a glass plate ... The sunlight passing through ... This first permanent example ... was destroyed ... some years later. |access-date=29 September 2009 |archive-url=https://web.archive.org/web/20091006135924/http://www.hrc.utexas.edu/exhibitions/permanent/wfp/heliography.html |archive-date=6 October 2009 |url-status=dead}}</ref> a contact-exposed copy of an engraving of [[Pope Pius VII]], but it was later destroyed when Niépce attempted to make prints from it.<ref name="UTexas" /> The earliest surviving photographic artifacts by Niépce, made in 1825,<ref name="BBC" /> are copies of a 17th-century engraving of a man with a horse and of what may be an etching or engraving of a woman with a [[spinning wheel]]. They are simply sheets of plain paper printed with ink in a printing press, like ordinary etchings, engravings, or lithographs, but the plates used to print them were created photographically by Niépce's process rather than by laborious and inexact hand-engraving or drawing on lithographic stones. They thus are photo-etchings. One example of the print of the man with a horse and two examples of the print of the woman with the spinning wheel are known to have survived. The former is in the collection of the [[Bibliothèque nationale de France]] in Paris and the latter two are in a private collection in Westport, Connecticut.


Niépce's correspondence with his brother Claude has preserved the fact that his first real success in using bitumen to create a permanent photograph of the image in a camera obscura came in 1824. That photograph, made on the surface of a lithographic stone, was later effaced. In 1826 or 1827 he again photographed the same scene, the view from a window in his house, on a sheet of bitumen-coated pewter. The result has survived and is now the oldest known camera photograph still in existence. The historic image had seemingly been lost early in the 20th century, but photography historian [[Helmut Gernsheim]] succeeded in tracking it down in 1952. The exposure time required to make it is usually said to have been eight or nine hours, but that is a mid-20th century assumption based largely on the fact that the sun lights the buildings on opposite sides, as if from an arc across the sky, indicating an essentially day-long exposure. A later researcher who used Niépce's notes and historically correct materials to recreate his processes found that in fact ''several days'' of exposure in the camera were needed to adequately capture such an image on a bitumen-coated plate.<ref>[http://www.niepce.org/pagus/invus3.html Niépce House Museum: Invention of Photography, Part 3] {{Webarchive|url=https://web.archive.org/web/20140316220551/http://www.niepce.org/pagus/invus3.html |date=16 March 2014 }}. Retrieved 25 May 2013.</ref>
Niépce's correspondence with his brother Claude has preserved the fact that his first real success in using bitumen to create a permanent photograph of the image in a camera obscura came sometime between 1822 and 1827.<ref>{{Cite web |title=Dans ce village Nicéphore Niépce inventa la photographie en 1822 |url=https://www.dailykos.com/stories/2019/7/2/1866474/-Dans-ce-village-Nic-phore-Ni-pce-inventa-la-photographie-en-1822 |access-date=2024-05-18 |website=Daily Kos |language=en |archive-date=13 May 2024 |archive-url=https://web.archive.org/web/20240513012035/https://www.dailykos.com/stories/2019/7/2/1866474/-Dans-ce-village-Nic-phore-Ni-pce-inventa-la-photographie-en-1822 |url-status=live }}</ref> The result is now the oldest known camera photograph still in existence. The historic image had seemingly been lost early in the 20th century, but photography historians Helmut and Alison Gernsheim succeeded in tracking it down in 1952. The exposure time required to make it is usually said to have been eight or nine hours, but that is a mid-20th century assumption based largely on the fact that the sun lights the buildings on opposite sides, as if from an arc across the sky, indicating an essentially day-long exposure. A later researcher who used Niépce's notes and historically correct materials to recreate his processes found that in fact ''several days'' of exposure in the camera were needed to adequately capture such an image on a bitumen-coated plate.<ref>[https://photo-museum.org/niepce-invention-photography/ Niépce Photo Museum: Invention of Photography, Part 3] {{Webarchive|url=https://web.archive.org/web/20140316220551/http://www.niepce.org/pagus/invus3.html|date=16 March 2014}}. Retrieved 25 May 2013.</ref><ref>{{cite AV media |url=https://www.youtube.com/channel/UCDQwgtMWCTQtLlsYOB5RIPg/videos |title=Nicéphore Niépce's House Museum |via=YouTube |access-date=12 February 2022 |archive-date=12 February 2022 |archive-url=https://web.archive.org/web/20220212060409/https://www.youtube.com/channel/UCDQwgtMWCTQtLlsYOB5RIPg/videos |url-status=live }}</ref>


In 1829,<ref>{{cite web |title=Joseph Nicéphore Niépce |website=[[Microsoft Encarta]] Online Encyclopedia |date=2008 |url=http://encarta.msn.com/encyclopedia_761579414/Niepce.html |access-date=27 June 2008 |url-status=dead |archive-url=https://web.archive.org/web/20080627090847/http://encarta.msn.com/encyclopedia_761579414/Niepce.html |archive-date=27 June 2008}}</ref> Niépce entered into a partnership with [[Louis Daguerre]], who was also seeking a means of creating permanent photographic images with a camera. Together, they developed the [[physautotype]], an improved process that used lavender oil distillate as the photosensitive substance. The partnership lasted until Niépce's death in 1833, after which Daguerre continued to experiment, eventually working out a process that only superficially resembled Niépce's.<ref>{{Cite book |last=Crawford |first=William |title=The Keepers of Light |year=1979 |publisher=Morgan & Morgan |location=New York |pages=23–27 |isbn=0-87100-158-6}}</ref> He named it the "[[daguerréotype]]", after himself. In 1839 he managed to get the government of France to purchase his invention on behalf of the people of France. The French government agreed to award Daguerre a yearly stipend of 6,000 francs for the rest of his life, and to give the estate of Niépce 4,000 francs yearly. This arrangement rankled Niépce's son, who claimed Daguerre was reaping all the benefits of his father's work. In some ways, he was right—for many years, Niépce received little credit for his contribution. Later historians have reclaimed Niépce from relative obscurity, and it is now generally recognized that his "heliography" was the first successful example of what we now call "photography":<ref name="Gorman" /> the creation of a reasonably light-fast and permanent image by the action of light on a light-sensitive surface and subsequent processing.{{cn|date=July 2019}}
In 1829,<ref>{{cite web |title=Joseph Nicéphore Niépce |website=[[Microsoft Encarta]] Online Encyclopedia |date=2008 |url=http://encarta.msn.com/encyclopedia_761579414/Niepce.html |access-date=27 June 2008 |url-status=dead |archive-url=https://web.archive.org/web/20080627090847/http://encarta.msn.com/encyclopedia_761579414/Niepce.html |archive-date=27 June 2008}}</ref> Niépce entered into a partnership with [[Louis Daguerre]], who was also seeking a means of creating permanent photographic images with a camera. Together, they developed the [[physautotype]], an improved process that used lavender oil distillate as the photosensitive substance. The partnership lasted until Niépce's death in 1833, after which Daguerre continued to experiment, eventually working out a process that only superficially resembled Niépce's.<ref>{{Cite book |last=Crawford |first=William |title=The Keepers of Light |year=1979 |publisher=Morgan & Morgan |location=New York |pages=23–27 |isbn=0-87100-158-6}}</ref> He named it the "[[daguerréotype]]", after himself. In 1839 he managed to get the government of France to purchase his invention on behalf of the people of France. The French government agreed to award Daguerre a yearly stipend of 6,000 francs for the rest of his life, and to give the estate of Niépce 4,000 francs yearly. This arrangement rankled Niépce's son, who claimed Daguerre was reaping all the benefits of his father's work. In some ways, he was right—for many years, Niépce received little credit for his contribution. Later historians have reclaimed Niépce from relative obscurity, and it is now generally recognized that his "heliography" was the first successful example of what we now call "photography":<ref name="Gorman" /> the creation of a reasonably light-fast and permanent image by the action of light on a light-sensitive surface and subsequent processing.


Although initially ignored amid the excitement caused by the introduction of the daguerreotype, and far too insensitive to be practical for making photographs with a camera, the utility of Niépce's original process for its primary purpose was eventually realized. From the 1850s until well into the 20th century, a thin coating of bitumen was widely used as a slow but very effective and economical [[photoresist]] for making printing plates.{{cn|date=July 2019}}
Although initially ignored amid the excitement caused by the introduction of the daguerreotype, and far too insensitive to be practical for making photographs with a camera, the utility of Niépce's original process for its primary purpose was eventually realized. From the 1850s until well into the 20th century, a thin coating of bitumen was widely used as a slow but very effective and economical [[photoresist]] for making printing plates.


=== Pyréolophore ===
=== Pyréolophore ===
[[File:Draisienne built by Niépce, 1818 - Musée Nicéphore Niépce - DSC06041.JPG|thumb|Draisienne built by Niépce, 1818 – Musée Nicéphore Niépce]]
[[File:Draisienne built by Niépce, 1818 - Musée Nicéphore Niépce - DSC06041.JPG|thumb|Draisienne built by Niépce, 1818 – Musée Nicéphore Niépce]]
The Pyréolophore, probably the world's first internal combustion engine that was actually built, was invented and patented by the Niépce brothers in 1807. This engine ran on controlled dust explosions of [[lycopodium powder]] and was installed on a boat that ran on the river [[Saône]]. Ten years later, the brothers were the first in the world to make an engine work with a fuel injection system.<ref>{{Cite web |title=The Pyreolophore |url=http://www.photo-museum.org/pyreolophore-invention-internal-combustion-engine/}}</ref><!-- earlier link: https://web.archive.org/web/20100206012100/http://www.nicephore-niepce.com/pagus/pagus-other.html -->
The Pyréolophore, one of the world's first internal combustion engines that was actually built, was invented and patented by the Niépce brothers in 1807. This engine ran on controlled dust explosions of [[lycopodium powder]] and was installed on a boat that ran on the river [[Saône]]. Ten years later, the brothers were the first in the world to make an engine work with a fuel injection system.<ref>{{Cite web |title=The Pyreolophore |url=http://www.photo-museum.org/pyreolophore-invention-internal-combustion-engine/ |access-date=17 February 2017 |archive-date=30 January 2017 |archive-url=https://web.archive.org/web/20170130143955/http://www.photo-museum.org/pyreolophore-invention-internal-combustion-engine/ |url-status=live }}</ref><!-- earlier link: https://web.archive.org/web/20100206012100/http://www.nicephore-niepce.com/pagus/pagus-other.html -->


=== Marly machine ===
=== Marly machine ===
In 1807 the imperial government opened a competition for a hydraulic machine to replace the original [[Marly machine]] (located in [[Marly-le-Roi]]) that delivered water to the [[Palace of Versailles]] from the [[Seine]] river. The machine was built in [[Bougival]] in 1684, from where it pumped water a distance of one kilometer and raised it 150 meters. The Niépce brothers conceived a new hydrostatic principle for the machine and improved it once more in 1809. The machine had undergone changes in many of its parts, including more precise pistons, creating far less resistance. They tested it many times, and the result was that with a stream drop of 4&nbsp;feet 4&nbsp;inches, it lifted water 11&nbsp;feet. But in December 1809 they got a message that they had waited too long and the Emperor had taken on himself the decision to ask the engineer {{ill|Jacques-Constantin Périer|lt=Périer|fr}} (1742–1818) to build a steam engine to operate the pumps at Marly.<ref>{{Cite web |title=Other Inventions: the Marly Machine |url=http://www.nicephore-niepce.com/pagus/pagus-other.html |access-date=3 July 2009 |archive-url=https://www.webcitation.org/69f2ldySJ?url=http://www.photography-museums.com/pagus/pagus-other.html |archive-date=4 August 2012 |url-status=dead }}</ref>
In 1807 the imperial government opened a competition for a hydraulic machine to replace the original [[Marly machine]] (located in [[Marly-le-Roi]]) that delivered water to the [[Palace of Versailles]] from the [[Seine]] river. The machine was built in [[Bougival]] in 1684, from where it pumped water a distance of one kilometer and raised it 150 meters. The Niépce brothers conceived a new hydrostatic principle for the machine and improved it once more in 1809. The machine had undergone changes in many of its parts, including more precise pistons, creating far less resistance. They tested it many times, and the result was that with a stream drop of 4&nbsp;feet 4&nbsp;inches, it lifted water 11&nbsp;feet. But in December 1809 they got a message that they had waited too long and the Emperor had taken on himself the decision to ask the engineer [[Jacques-Constantin Périer|Périer]] (1742–1818) to build a steam engine to operate the pumps at Marly.<ref>{{Cite web |title=Other Inventions: the Marly Machine |url=http://www.nicephore-niepce.com/pagus/pagus-other.html |access-date=3 July 2009 |archive-url=https://web.archive.org/web/20120728181219/http://www.photography-museums.com/pagus/pagus-other.html |archive-date=28 July 2012 |url-status=dead }}</ref>


=== Vélocipède ===
=== Vélocipède ===
In 1818 Niépce became interested in the ancestor of the bicycle, a [[Laufmaschine]] invented by [[Karl Drais|Karl von Drais]] in 1817. He built himself a model and called it the [[vélocipède]] (''fast foot'') and caused quite a sensation on the local country roads. Niépce improved his machine with an adjustable saddle and it is now exhibited at the Niépce Museum. In a letter to his brother Nicéphore contemplated motorizing his machine.<ref>{{Cite web |title=Other Inventions: the Velocipede |url=http://www.nicephore-niepce.com/pagus/pagus-other.html |access-date=3 July 2009 |archive-url=https://www.webcitation.org/69f2ldySJ?url=http://www.photography-museums.com/pagus/pagus-other.html |archive-date=4 August 2012 |url-status=dead }}</ref>
In 1818 Niépce became interested in the ancestor of the bicycle, a [[Laufmaschine]] invented by [[Karl Drais|Karl von Drais]] in 1817. He built himself a model and called it the [[vélocipède]] (''fast foot'') and caused quite a sensation on the local country roads. Niépce improved his machine with an adjustable saddle and it is now exhibited at the Niépce Museum. In a letter to his brother Nicéphore contemplated motorizing his machine.<ref>{{Cite web |title=Other Inventions: the Velocipede |url=http://www.nicephore-niepce.com/pagus/pagus-other.html |access-date=3 July 2009 |archive-url=https://web.archive.org/web/20120728181219/http://www.photography-museums.com/pagus/pagus-other.html |archive-date=28 July 2012 |url-status=dead }}</ref>


[[File:Joseph Nicéphore Niépce..jpg|thumb|upright=1|Nicéphore Niépce]]
[[File:Joseph Nicéphore Niépce..jpg|thumb|upright=1|Nicéphore Niépce]]
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The [[Moon|lunar]] crater [[Niepce (crater)|Niépce]] is named after him.
The [[Moon|lunar]] crater [[Niepce (crater)|Niépce]] is named after him.


{{As of|2008}} Niépce's photograph ''View from the Window at Le Gras'' is on display in the [[Harry Ransom Humanities Research Center]] at the [[University of Texas at Austin]]. The image was rediscovered in 1952 by historians Alison and Helmut Gernsheim.<ref>{{cite journal |last1=Gernsheim |first1=Helmet |last2=Gernsheim |first2=Alison |title=Rediscovery of the World's First Photograph |journal=Image, Journal of Photography of George Eastman House |date=September 1952 |volume=1 |issue=6 |pages=1–2 |url=http://image.eastmanhouse.org/files/GEH_1952_01_06.pdf |access-date=24 June 2014 |publisher=International Museum of Photography at George Eastman House Inc. |location=Rochester, NY |url-status=dead |archive-url=https://web.archive.org/web/20160304084058/http://image.eastmanhouse.org/files/GEH_1952_01_06.pdf |archive-date=4 March 2016}}</ref>
The Niépce Heliograph is on permanent display at the Harry Ransom Center at the [[University of Texas at Austin]].<ref>{{Cite web |title=The Niépce Heliograph |url=https://www.hrc.utexas.edu/niepce-heliograph/ |access-date=2024-10-11 |website=www.hrc.utexas.edu}}</ref> The object was located by historians Alison and Helmut Gernsheim in 1952 and sold to the Humanities Research Center (later renamed the Harry Ransom Center) in 1963.<ref>{{cite journal |last1=Gernsheim |first1=Helmet |last2=Gernsheim |first2=Alison |title=Rediscovery of the World's First Photograph |journal=Image, Journal of Photography of George Eastman House |date=September 1952 |volume=1 |issue=6 |pages=1–2 |url=http://image.eastmanhouse.org/files/GEH_1952_01_06.pdf |access-date=24 June 2014 |publisher=International Museum of Photography at George Eastman House Inc. |location=Rochester, NY |url-status=dead |archive-url=https://web.archive.org/web/20160304084058/http://image.eastmanhouse.org/files/GEH_1952_01_06.pdf |archive-date=4 March 2016}}</ref>


The [[Niépce Prize]] has been awarded annually since 1955 to a professional photographer who has lived and worked in France for over 3 years. It was introduced in honour of Niépce by Albert Plécy of the l'Association Gens d'Images.{{cn|date=July 2019}}
The [[Niépce Prize]] has been awarded annually since 1955 to a professional photographer who has lived and worked in France for over three years. It was introduced in honour of Niépce by Albert Plécy of the l'Association Gens d'Images.


== See also ==
== See also ==
Line 87: Line 93:
* [[History of the internal combustion engine]]
* [[History of the internal combustion engine]]
* [[François Isaac de Rivaz]]
* [[François Isaac de Rivaz]]
* [[Janine Niépce]], photographer
* [[List of works by Eugène Guillaume]]
* [[List of works by Eugène Guillaume]]


== References ==
== References ==
{{reflist|1=30em}}
{{reflist}}


== Sources ==
== Sources ==
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== External links ==
== External links ==
{{Commons}}
{{Commons|Joseph Nicéphore Niépce|Nicéphore Niépce}}
* [https://web.archive.org/web/20150111232314/http://www.niepce.com/ Website about Niépce] {{in lang|fr}}
* [https://web.archive.org/web/20150111232314/http://www.niepce.com/ Website about Niépce] {{in lang|fr}}
* [http://www.nicephore-niepce.com/ Website about Niépce]
* [http://www.nicephore-niepce.com/ Website about Niépce]
* [https://web.archive.org/web/20091227215421/http://www.hrc.utexas.edu/exhibitions/permanent/wfp/ University of Texas exhibition site on "The First Photograph"]
* [https://www.hrc.utexas.edu/niepce-heliograph/ Harry Ransom Center permanent exhibition of "The Niépce Heliograph"]
* [http://www.photohistories.com/Photo-Histories/59/the-history-men-helmut-gernsheim-and-nicephore-niepce/ The history men: Helmut Gernsheim and Nicéphore Niépce on Photo Histories]
* [http://www.photohistories.com/Photo-Histories/59/the-history-men-helmut-gernsheim-and-nicephore-niepce/ The history men: Helmut Gernsheim and Nicéphore Niépce on Photo Histories]
* {{YouTube|WAcTHpuqQIs|Documentary video on restoration of Nicephore Niepce's home}}
* {{YouTube|WAcTHpuqQIs|Documentary video on restoration of Nicephore Niepce's home}}
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[[Category:19th-century French inventors]]
[[Category:19th-century French inventors]]
[[Category:19th-century French photographers]]
[[Category:19th-century French photographers]]
[[Category:People associated with the internal combustion engine]]
[[Category:People of the Industrial Revolution]]

Latest revision as of 02:21, 24 October 2024

Nicéphore Niépce
Portrait circa 1820
Born
Joseph Nicéphore Niépce

(1765-03-07)7 March 1765,
Died5 July 1833(1833-07-05) (aged 68)
Occupations
  • Inventor
  • photographer
Years active1795–1833
Known for
Signature

Joseph Nicéphore Niépce (French: [nisefɔʁ njɛps]; 7 March 1765 – 5 July 1833)[1] was a French inventor and one of the earliest pioneers of photography.[2] Niépce developed heliography, a technique he used to create the world's oldest surviving products of a photographic process.[3] In the mid-1820s, he used a primitive camera to produce the oldest surviving photograph of a real-world scene. Among Niépce's other inventions was the Pyréolophore, one of the world's first internal combustion engines, which he conceived, created, and developed with his older brother Claude Niépce.[4]

Biography

[edit]

Early life

[edit]
Niépce's birthplace at Chalon-sur-Saône, with a plaque in his memory
Niépce c. 1795

Niépce was born in Chalon-sur-Saône, Saône-et-Loire, where his father was a wealthy lawyer. His older brother Claude (1763–1828) was also his collaborator in research and invention, but died half-mad and destitute in England, having squandered the family wealth in pursuit of non-opportunities for the Pyréolophore. Niépce also had a sister and a younger brother, Bernard.[5][6][7]

Nicéphore was baptized Joseph but adopted the name Nicéphore, in honour of Saint Nicephorus the ninth-century Patriarch of Constantinople, while studying at the Oratorian college in Angers. At the college he learned science and the experimental method, rapidly achieving success and graduating to work as a professor of the college.

Military career

[edit]

Niépce served as a staff officer in the French army under Napoleon, spending years in Italy and on the island of Sardinia, but ill health forced him to resign, whereupon he married Agnes Romero and became the Administrator of the district of Nice in post-revolutionary France. In 1795, he resigned as administrator of Nice to pursue scientific research with his brother Claude. One source reports his resignation to have been forced due to his unpopularity.[5][6][7]

Scientific research

[edit]

In 1801 the brothers returned to the family's estates in Chalon to continue their scientific research, and where they were united with their mother, their sister and their younger brother Bernard. Here they managed the family estate as independently wealthy gentlemen-farmers, raising beets and producing sugar.[5][6][7]

Claude Niépce

[edit]

In 1827 Niépce journeyed to England to visit his seriously ill elder brother Claude Niépce, who was now living in Kew, near London. Claude had descended into delirium and squandered much of the family fortune chasing inappropriate business opportunities for the Pyréolophore.[5]

Death

[edit]

Nicéphore Niépce died of a stroke on 5 July 1833, financially ruined such that his grave in the cemetery of Saint-Loup de Varennes was financed by the municipality. The cemetery is near the family house where he had experimented and had made the world's oldest surviving photographic image.[6]

Descendants

[edit]

His son Isidore (1805–1868) formed a partnership with Daguerre after his father's death and was granted a government pension in 1839 in return for disclosing the technical details of Nicéphore's heliogravure process.[5][6]

A cousin, Claude Félix Abel Niépce de Saint-Victor (1805–1870), was a chemist and was the first to use albumen in photography. He also produced photographic engravings on steel. During 1857–1861, he discovered that uranium salts emit a form of radiation that is invisible to the human eye.[8]

Photojournalist Janine Niépce (1921–2007) is a distant relative.[9]

Achievements

[edit]

Photography

[edit]
One of the three earliest known photographic artifacts, created by Nicéphore Niépce in 1825. It is an ink-on-paper print, but the printing plate used to make it was photographically created by Niépce's heliography process. It reproduces a 17th-century Flemish engraving.
The earliest saved photographic image (Heliograph on pewter plate), taken sometime between 1822 and 1827 by Joseph Nicéphore Niépce, taken at Le Gras, France.

The date of Niépce's first photographic experiments is uncertain. He was led to them by his interest in the new art of lithography,[10] for which he realized he lacked the necessary skill and artistic ability, and by his acquaintance with the camera obscura, a drawing aid which was popular among affluent dilettantes in the late 18th and early 19th centuries. The camera obscura's beautiful but fleeting little "light paintings" inspired a number of people, including Thomas Wedgwood and Henry Fox Talbot, to seek some way of capturing them more easily and effectively than could be done by tracing over them with a pencil.

Letters to his sister-in-law around 1816 indicate that Niépce had managed to capture small camera images on paper coated with silver chloride,[11] making him apparently the first to have any success at all in such an attempt, but the results were negatives, dark where they should be light and vice versa, and he could find no way to stop them from darkening all over when brought into the light for viewing.

Niépce turned his attention to other substances that were affected by light, eventually concentrating on Bitumen of Judea, a naturally occurring asphalt that had been used for various purposes since ancient times. In Niépce's time, it was used by artists as an acid-resistant coating on copper plates for making etchings. The artist scratched a drawing through the coating, then bathed the plate in acid to etch the exposed areas, then removed the coating with a solvent and used the plate to print ink copies of the drawing onto paper. What interested Niépce was the fact that the bitumen coating became less soluble after it had been left exposed to light.

Niépce dissolved bitumen in lavender oil, a solvent often used in varnishes,[12] and thinly coated it onto a lithographic stone or a sheet of metal or glass. After the coating had dried, a test subject, typically an engraving printed on paper, was laid over the surface in close contact and the two were put out in direct sunlight. After sufficient exposure, the solvent could be used to rinse away only the unhardened bitumen that had been shielded from light by lines or dark areas in the test subject. The parts of the surface thus laid bare could then be etched with acid, or the remaining bitumen could serve as the water-repellent material in lithographic printing.

Niépce called his process heliography, which literally means "sun drawing".[13] In 1822, he used it to create what is believed to have been the world's first permanent photographic image,[14] a contact-exposed copy of an engraving of Pope Pius VII, but it was later destroyed when Niépce attempted to make prints from it.[14] The earliest surviving photographic artifacts by Niépce, made in 1825,[3] are copies of a 17th-century engraving of a man with a horse and of what may be an etching or engraving of a woman with a spinning wheel. They are simply sheets of plain paper printed with ink in a printing press, like ordinary etchings, engravings, or lithographs, but the plates used to print them were created photographically by Niépce's process rather than by laborious and inexact hand-engraving or drawing on lithographic stones. They thus are photo-etchings. One example of the print of the man with a horse and two examples of the print of the woman with the spinning wheel are known to have survived. The former is in the collection of the Bibliothèque nationale de France in Paris and the latter two are in a private collection in Westport, Connecticut.

Niépce's correspondence with his brother Claude has preserved the fact that his first real success in using bitumen to create a permanent photograph of the image in a camera obscura came sometime between 1822 and 1827.[15] The result is now the oldest known camera photograph still in existence. The historic image had seemingly been lost early in the 20th century, but photography historians Helmut and Alison Gernsheim succeeded in tracking it down in 1952. The exposure time required to make it is usually said to have been eight or nine hours, but that is a mid-20th century assumption based largely on the fact that the sun lights the buildings on opposite sides, as if from an arc across the sky, indicating an essentially day-long exposure. A later researcher who used Niépce's notes and historically correct materials to recreate his processes found that in fact several days of exposure in the camera were needed to adequately capture such an image on a bitumen-coated plate.[16][17]

In 1829,[18] Niépce entered into a partnership with Louis Daguerre, who was also seeking a means of creating permanent photographic images with a camera. Together, they developed the physautotype, an improved process that used lavender oil distillate as the photosensitive substance. The partnership lasted until Niépce's death in 1833, after which Daguerre continued to experiment, eventually working out a process that only superficially resembled Niépce's.[19] He named it the "daguerréotype", after himself. In 1839 he managed to get the government of France to purchase his invention on behalf of the people of France. The French government agreed to award Daguerre a yearly stipend of 6,000 francs for the rest of his life, and to give the estate of Niépce 4,000 francs yearly. This arrangement rankled Niépce's son, who claimed Daguerre was reaping all the benefits of his father's work. In some ways, he was right—for many years, Niépce received little credit for his contribution. Later historians have reclaimed Niépce from relative obscurity, and it is now generally recognized that his "heliography" was the first successful example of what we now call "photography":[12] the creation of a reasonably light-fast and permanent image by the action of light on a light-sensitive surface and subsequent processing.

Although initially ignored amid the excitement caused by the introduction of the daguerreotype, and far too insensitive to be practical for making photographs with a camera, the utility of Niépce's original process for its primary purpose was eventually realized. From the 1850s until well into the 20th century, a thin coating of bitumen was widely used as a slow but very effective and economical photoresist for making printing plates.

Pyréolophore

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Draisienne built by Niépce, 1818 – Musée Nicéphore Niépce

The Pyréolophore, one of the world's first internal combustion engines that was actually built, was invented and patented by the Niépce brothers in 1807. This engine ran on controlled dust explosions of lycopodium powder and was installed on a boat that ran on the river Saône. Ten years later, the brothers were the first in the world to make an engine work with a fuel injection system.[20]

Marly machine

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In 1807 the imperial government opened a competition for a hydraulic machine to replace the original Marly machine (located in Marly-le-Roi) that delivered water to the Palace of Versailles from the Seine river. The machine was built in Bougival in 1684, from where it pumped water a distance of one kilometer and raised it 150 meters. The Niépce brothers conceived a new hydrostatic principle for the machine and improved it once more in 1809. The machine had undergone changes in many of its parts, including more precise pistons, creating far less resistance. They tested it many times, and the result was that with a stream drop of 4 feet 4 inches, it lifted water 11 feet. But in December 1809 they got a message that they had waited too long and the Emperor had taken on himself the decision to ask the engineer Périer (1742–1818) to build a steam engine to operate the pumps at Marly.[21]

Vélocipède

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In 1818 Niépce became interested in the ancestor of the bicycle, a Laufmaschine invented by Karl von Drais in 1817. He built himself a model and called it the vélocipède (fast foot) and caused quite a sensation on the local country roads. Niépce improved his machine with an adjustable saddle and it is now exhibited at the Niépce Museum. In a letter to his brother Nicéphore contemplated motorizing his machine.[22]

Nicéphore Niépce

Legacy and commemoration

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The lunar crater Niépce is named after him.

The Niépce Heliograph is on permanent display at the Harry Ransom Center at the University of Texas at Austin.[23] The object was located by historians Alison and Helmut Gernsheim in 1952 and sold to the Humanities Research Center (later renamed the Harry Ransom Center) in 1963.[24]

The Niépce Prize has been awarded annually since 1955 to a professional photographer who has lived and worked in France for over three years. It was introduced in honour of Niépce by Albert Plécy of the l'Association Gens d'Images.

See also

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References

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  1. ^ Nicéphore Niépce at the Encyclopædia Britannica
  2. ^ Baatz, Willfried (1997). Photography: An Illustrated Historical Overview. New York: Barron's. p. 16. ISBN 0-7641-0243-5.
  3. ^ a b "World's oldest photo sold to library". BBC News. 21 March 2002. Archived from the original on 18 February 2009. Retrieved 17 November 2011. The image of an engraving depicting a man leading a horse was made in 1825 by Nicéphore Niépce, who invented a technique known as heliogravure.
  4. ^ "Nicéphore Niépce House Museum". Nicéphore Niépce House Museum. Archived from the original on 15 February 2017. Retrieved 17 February 2017.
  5. ^ a b c d e "History of Art: History of Photography". Archived from the original on 26 November 2022. Retrieved 17 August 2010.
  6. ^ a b c d e "Le Pyréolophore de Nicéphore". Ferragus. Archived from the original on 20 July 2019. Retrieved 17 August 2010.
  7. ^ a b c "Research Joseph Nicéphore Niépce – Science and Its Times". BookRags.com. Archived from the original on 9 March 2012. Retrieved 17 August 2010.
  8. ^ In 1861, Niépce de Saint-Victor concluded that uranium salts emitted an invisible radiation that caused photographic plates to fog. From pages 34–35 of: Niépce de Saint-Victor (1861) "Cinquième mémoire sur une nouvelle action de la lumière" Archived 13 October 2016 at the Wayback Machine (Fifth memoir on a new action of light), Comptes rendus ... , vol. 53, pages 33–35.
    "... cette activité persistante ... ne peut mème pas être de la phosphorescence, car elle ne durerait pas si longtemps, d'après les expériences de M. Edmond Becquerel; il est donc plus probable que c'est un rayonnement invisible à nos yeux, comme le croit M. Léon Foucault, ...."
    "... this persistent activity ... cannot be due to phosphorescence, for it [phosphorescence] would not last so long, according to the experiments of Mr. Edmond Becquerel; it is thus more likely that it is a radiation that is invisible to our eyes, as Mr. Léon Foucault believes, ...."
  9. ^ Bouzet, Ange-Dominique (6 September 2000). "Critique Maligne Janine Niepce". Libération. Retrieved 6 October 2024.
  10. ^ "Around the World in 1896 : A Brief History of Photography". US: The Library of Congress. 2002. Archived from the original on 26 September 2020. Retrieved 18 September 2008.
  11. ^ Stokstad, Marilyn; David Cateforis; Stephen Addiss (2005). Art History (Second ed.). Upper Saddle River, New Jersey: Pearson Education. p. 964. ISBN 0-13-145527-3.
  12. ^ a b Gorman, Jessica (2007). "Photography at a Crossroads". Science News. 162 (21): 331–333. doi:10.2307/4013861. JSTOR 4013861.
  13. ^ Baatz, Willfried (1997). Photography: An Illustrated Historical Overview. New York: Barron's. p. 16. ISBN 0-7641-0243-5.
  14. ^ a b "The First Photograph — Heliography". Archived from the original on 6 October 2009. Retrieved 29 September 2009. from Helmut Gernsheim's article, "The 150th Anniversary of Photography," in History of Photography, Vol. I, No. 1, January 1977: ... In 1822, Niépce coated a glass plate ... The sunlight passing through ... This first permanent example ... was destroyed ... some years later.
  15. ^ "Dans ce village Nicéphore Niépce inventa la photographie en 1822". Daily Kos. Archived from the original on 13 May 2024. Retrieved 18 May 2024.
  16. ^ Niépce Photo Museum: Invention of Photography, Part 3 Archived 16 March 2014 at the Wayback Machine. Retrieved 25 May 2013.
  17. ^ Nicéphore Niépce's House Museum. Archived from the original on 12 February 2022. Retrieved 12 February 2022 – via YouTube.
  18. ^ "Joseph Nicéphore Niépce". Microsoft Encarta Online Encyclopedia. 2008. Archived from the original on 27 June 2008. Retrieved 27 June 2008.
  19. ^ Crawford, William (1979). The Keepers of Light. New York: Morgan & Morgan. pp. 23–27. ISBN 0-87100-158-6.
  20. ^ "The Pyreolophore". Archived from the original on 30 January 2017. Retrieved 17 February 2017.
  21. ^ "Other Inventions: the Marly Machine". Archived from the original on 28 July 2012. Retrieved 3 July 2009.
  22. ^ "Other Inventions: the Velocipede". Archived from the original on 28 July 2012. Retrieved 3 July 2009.
  23. ^ "The Niépce Heliograph". www.hrc.utexas.edu. Retrieved 11 October 2024.
  24. ^ Gernsheim, Helmet; Gernsheim, Alison (September 1952). "Rediscovery of the World's First Photograph" (PDF). Image, Journal of Photography of George Eastman House. 1 (6). Rochester, NY: International Museum of Photography at George Eastman House Inc.: 1–2. Archived from the original (PDF) on 4 March 2016. Retrieved 24 June 2014.

Sources

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  • Marignier, J. L., Niépce: l'invention de la photographie (1999)
  • Bajac, Q., The Invention of Photography, trans. R. Taylor (2002)
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