- Wöhler synthesis
The Wöhler synthesis is the conversion of
ammonium cyanate intourea Ref|1. Thischemical reaction was discovered in1828 byFriedrich Wöhler in an attempt to synthesize ammonium cyanate itself and is considered the starting point of modernorganic chemistry . Although the Wöhler reaction concerns the conversion of ammonium cyanate, thissalt only appears as an (unstable) intermediate. Wöhler demonstrated the reaction in his original publication with different sets of reactants: a combination ofcyanic acid andammonia , a combination of silver cyanate andammonium chloride , a combination of lead cyanate and ammonia and finally from a combination of mercury cyanate and cyanatic ammonia (which is again cyanic acid with ammonia) Ref|2.In a practical demonstration of the reaction the starting materials are a solution of
potassium cyanate andammonium chloride . The solutions are mixed, heated and cooled again. An additional proof of the chemical transformation is obtained by adding a solution ofoxalic acid which forms ureaoxalate as a whiteprecipitate Ref|3.Alternatively the reaction can be carried out with lead cyanate and ammonia Ref|4. The actual reaction taking place is a
double displacement reaction to form ammonium cyanate::
Ammonium cyanate decomposes to ammonia and cyanic acid which in turn react to urea in a
nucleophilic addition followed by tautomericisomerization ::
Complexation with
oxalic acid helps drive thischemical equilibrium to completion.The Wöhler synthesis is of great historical significance because for the first time an
organic compound was produced from inorganic reactants. This finding went against the mainstream theory of that time calledvitalism which stated that organic matter possessed a special force or "vital force" inherent to all things living. For this reason a sharp boundary existed between organic and inorganic compounds. Urea was discoved in1799 and could until then only be obtained from biological sources such asurine . Wöhler reported to his mentor Berzelius"I cannot, so to say, hold my chemical water and must tell you that I can make urea without thereby needing to have kidneys, or anyhow, an animal, be it human or dog".
It is argued that organic chemistry did not actually start with this discovery in 1828 but 4 years earlier with the synthesis of
oxalic acid in 1824 also by Wöhler and also from the inorganic precursorcyanogen . It is also argued that vitalism was not put to bed either in 1828. His contemparies Liebig and Pasteur never abandoned vitalism and it took until 1845 when Kolbe repeated an inorganic - organic conversion ofcarbon disulfide toacetic acid before vitalism started to lose supporters in serious numbers.References
# cite journal
title = Ueber künstliche Bildung des Harnstoffs
author =Friedrich Wöhler
journal =Annalen der Physik und Chemie
volume = 37
issue = 1
pages = 330
year = 1828
doi = 10.1002/andp.18280880206
url = http://gallica.bnf.fr/ark:/12148/bpt6k15097k/f261.chemindefer
# "Wöhler's Synthesis of Urea: How Do the Textbooks Report It?" Paul S. Cohen, Stephen M. Cohen J. Chem. Educ. 1996 73 883 [http://jchemed.chem.wisc.edu/Journal/Issues/1996/Sep/abs883.html Abstract]
# "A Demonstration of Wöhler's Experiment: Preparation of Urea from Ammonium Chloride and Potassium Cyanate" Zoltán Tóth. J. Chem. Educ. 1996 73 539. [http://jchemed.chem.wisc.edu/Journal/Issues/1996/Jun/abs539_2.html Abstract]
# "Recreation of Wöhler’s Synthesis of Urea: An Undergraduate Organic Laboratory Exercise" James D. Batchelor, Everett E. Carpenter, Grant N. Holder, Cassandra T. Eagle, Jon Fielder, Jared Cummings The Chemical Educator 1/Vol .3,NO.6 1998 ISSN 1430-4171 [http://chemeducator.org/sbibs/s0003006/spapers/36eag897.pdf Online article]
*cite journal
title = Die Bedeutung der Wöhlerschen Harnstoff-Synthese
author = P. Walden
journal = Naturwissenschaften
volume = 16
issue = 45-47
pages = 835–849
year = 1928
doi = 10.1007/BF01451626
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