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'''Friedrich Wöhler''' (31 July 1800 – 23 September 1882) was a German chemist, best known for his synthesis of [[urea]], an organic compound from inorganic materials, which was a landmark event in the field of organic chemistry. His work is often cited as the starting point of modern organic chemistry. Wöhler's achievements include the isolation of several chemical elements and the discovery of several chemical compounds, making significant contributions to the development of chemistry as a science.
{{Short description|German chemist known for synthesizing urea}}
{{Use dmy dates|date=October 2023}}
 
'''Friedrich Wöhler''' (31 July 1800 – 23 September 1882) was a pioneering German chemist, best known for his synthesis of [[urea]], a landmark event in the history of [[organic chemistry]]. This synthesis demonstrated that organic compounds could be created from inorganic substances, challenging the prevailing belief in "vitalism"—the idea that organic compounds could only be produced by living organisms.


==Early Life and Education==
==Early Life and Education==
Friedrich Wöhler was born in Eschersheim, which is now a part of Frankfurt am Main, Germany. He initially studied medicine at the University of Marburg and later at the University of Heidelberg, where he developed an interest in chemistry. Under the guidance of [[Leopold Gmelin]], Wöhler shifted his focus entirely to chemistry.
Friedrich Wöhler was born in [[Eschersheim]], which is now part of [[Frankfurt am Main]], Germany. He initially studied medicine at the [[University of Marburg]] and later at the [[University of Heidelberg]], where he developed an interest in chemistry. Wöhler's passion for chemistry led him to study under the renowned chemist [[Jöns Jakob Berzelius]] in [[Stockholm]], Sweden.


==Career and Research==
==Career and Research==
After completing his studies, Wöhler worked as an assistant to [[Jöns Jakob Berzelius]] in Stockholm, where he was exposed to the forefront of chemical research. This experience was instrumental in shaping his future contributions to chemistry.
Wöhler's career was marked by significant contributions to the field of chemistry. In 1828, while working at the [[University of Göttingen]], he synthesized urea from ammonium cyanate, a process that became known as the "Wöhler synthesis." This experiment was pivotal because it was the first time an organic compound was synthesized from inorganic materials, thus refuting the theory of vitalism.
 
In 1828, Wöhler made a groundbreaking discovery by synthesizing [[urea]], an organic compound, from ammonium cyanate, an inorganic compound. This achievement challenged the prevailing belief of the time that organic compounds could only be produced by living organisms. Wöhler's synthesis of urea demonstrated that organic compounds could be made from inorganic materials, thus bridging the gap between organic and inorganic chemistry.
 
Wöhler's research interests were broad and included the study of [[metallurgy]], the isolation of [[beryllium]] and [[yttrium]], and the discovery of [[calcium carbide]] and [[silicon nitride]]. He also collaborated with [[Justus von Liebig]] on the discovery of [[benzoyl compounds]], further contributing to the foundation of organic chemistry.


In addition to his research, Wöhler held several academic positions, including a professorship at the University of Göttingen, where he taught for many years. His work as an educator helped to train a new generation of chemists, spreading his influence throughout the scientific community.
===Synthesis of Urea===
[[File:Urea-2D-flat.png|thumb|right|200px|Structural formula of urea]]
The synthesis of urea was a groundbreaking discovery. Wöhler heated ammonium cyanate, an inorganic compound, and observed the formation of urea, an organic compound found in the urine of animals. This experiment demonstrated that organic molecules could be synthesized from inorganic precursors, laying the foundation for modern organic chemistry.


==Legacy==
===Other Contributions===
Friedrich Wöhler's contributions to chemistry are considered monumental. His synthesis of urea not only challenged existing theories about the nature of organic compounds but also paved the way for the development of organic chemistry as a distinct field of study. Today, Wöhler is remembered as a pioneer who helped to bridge the divide between life sciences and physical sciences.
Wöhler made numerous other contributions to chemistry, including the isolation of the elements [[aluminum]] and [[beryllium]]. He also worked on the synthesis of [[calcium carbide]] and the discovery of [[silicon nitride]]. His collaboration with [[Justus von Liebig]] led to the development of the [[benzoyl radical]] theory, which was crucial in the understanding of organic radicals.


Wöhler received numerous honors for his work, including membership in various scientific societies and awards from academic institutions around the world. His legacy is preserved in the Wöhler synthesis of urea, which remains a fundamental experiment in the study of organic chemistry.
==Later Life and Legacy==
Wöhler spent much of his later career as a professor at the [[University of Göttingen]], where he continued to teach and conduct research. He was highly regarded by his students and colleagues for his dedication to science and education.


==Selected Works==
Wöhler's work had a lasting impact on the field of chemistry, particularly in the development of organic chemistry. His synthesis of urea is often cited as the beginning of modern organic chemistry, and his methods and discoveries continue to influence the field today.
* Synthesis of Urea (1828)
* Isolation of Beryllium (1828)
* Discovery of Calcium Carbide
* Research on Silicon Nitride


==See Also==
==Related Pages==
* [[Organic chemistry]]
* [[Organic chemistry]]
* [[Inorganic chemistry]]
* [[Vitalism]]
* [[Jöns Jakob Berzelius]]
* [[Jöns Jakob Berzelius]]
* [[Justus von Liebig]]
* [[Justus von Liebig]]


==References==
[[Category:1800 births]]
<references/>
[[Category:1882 deaths]]
 
[[Category:Chemists]]
[[Category:German chemists]]
[[Category:German chemists]]
[[Category:History of chemistry]]
[[Category:University of Göttingen faculty]]
{{Chemist-stub}}
[[Category:Organic chemists]]
<gallery>
File:Friedrich_Wöhler_Litho.jpg|Portrait of Friedrich Wöhler
File:Aluminium-4.jpg|Aluminium sample
File:Beryllium_metal.jpg|Beryllium metal
File:Yttrium_sublimed_dendritic_and_1cm3_cube.jpg|Yttrium sublimed dendritic and 1cm3 cube
File:August_Anton_Wöhler.jpg|August Anton Wöhler
File:Urea_Synthesis_Woehler.png|Urea synthesis by Wöhler
File:DBP_1982_1148_Friedrich_Wöhler.jpg|German postage stamp featuring Friedrich Wöhler
File:Göttingen_Stadtfriedhof_Grab_Friedrich_Wöhler_2.jpg|Grave of Friedrich Wöhler in Göttingen Stadtfriedhof
File:Friedrich-Wöhler-Gymnasium_in_Singen_-_Haupteingang.JPG|Friedrich-Wöhler-Gymnasium in Singen - Main entrance
</gallery>

Revision as of 17:31, 18 February 2025

German chemist known for synthesizing urea



Friedrich Wöhler (31 July 1800 – 23 September 1882) was a pioneering German chemist, best known for his synthesis of urea, a landmark event in the history of organic chemistry. This synthesis demonstrated that organic compounds could be created from inorganic substances, challenging the prevailing belief in "vitalism"—the idea that organic compounds could only be produced by living organisms.

Early Life and Education

Friedrich Wöhler was born in Eschersheim, which is now part of Frankfurt am Main, Germany. He initially studied medicine at the University of Marburg and later at the University of Heidelberg, where he developed an interest in chemistry. Wöhler's passion for chemistry led him to study under the renowned chemist Jöns Jakob Berzelius in Stockholm, Sweden.

Career and Research

Wöhler's career was marked by significant contributions to the field of chemistry. In 1828, while working at the University of Göttingen, he synthesized urea from ammonium cyanate, a process that became known as the "Wöhler synthesis." This experiment was pivotal because it was the first time an organic compound was synthesized from inorganic materials, thus refuting the theory of vitalism.

Synthesis of Urea

File:Urea-2D-flat.png
Structural formula of urea

The synthesis of urea was a groundbreaking discovery. Wöhler heated ammonium cyanate, an inorganic compound, and observed the formation of urea, an organic compound found in the urine of animals. This experiment demonstrated that organic molecules could be synthesized from inorganic precursors, laying the foundation for modern organic chemistry.

Other Contributions

Wöhler made numerous other contributions to chemistry, including the isolation of the elements aluminum and beryllium. He also worked on the synthesis of calcium carbide and the discovery of silicon nitride. His collaboration with Justus von Liebig led to the development of the benzoyl radical theory, which was crucial in the understanding of organic radicals.

Later Life and Legacy

Wöhler spent much of his later career as a professor at the University of Göttingen, where he continued to teach and conduct research. He was highly regarded by his students and colleagues for his dedication to science and education.

Wöhler's work had a lasting impact on the field of chemistry, particularly in the development of organic chemistry. His synthesis of urea is often cited as the beginning of modern organic chemistry, and his methods and discoveries continue to influence the field today.

Related Pages

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