The
Cope rearrangement is an extensively studied
organic reaction involving the
[3,3]-sigmatropic rearrangement of 1,5-dienes . It was developed by
Arthur C. Cope. For example 3-methyl-1,5-hexadiene heated to 300°C yields 1,5-heptadiene.
The Cope rearrangement causes the fluxional states of the molecules in the bullvalene family.
Mechanism
Although the Cope rearrangement is
concerted and
pericyclic, it can also be considered to go via a
transition state that is energetically and structurally equivalent to a
diradical. This is an alternative explanation which remains faithful to the uncharged nature of the Cope transition state, while preserving the principles of orbital symmetry. This also explains the high energy requirement to perform a Cope rearrangement. Although illustrated in the
chair conformation, the Cope can also occur with cyclohexadienes in the "boat" conformation.
The above description of the transition state is not quite correct. It is currently generally accepted that the Cope rearrangment follows an allowed concerted route through a homoaromatic transition state and not a diradical. That is unless the potential energy surface is perturbed to favor the diradical.
Examples
The rearrangement is widely used in organic synthesis. It is
symmetry-allowed when it is
suprafacial on all components. The transition state of the molecule passes through a boat or chair like transition state. An example of the Cope rearrangement is the expansion of a
cyclobutane ring to a
1,5-cyclooctadiene ring:
In this case, the reaction must pass through the boat transition state to produce the two cis double bonds. A trans double bond in the ring would be too strained. The reaction occurs under thermal conditions. The driving force of the reaction is the loss of strain from the cyclobutane ring.
Oxy-Cope rearrangement
In the
Oxy-Cope rearrangement a
hydroxyl group is added at C3 forming a enal or enone after
Keto-enol tautomerism of the intermediate enol :
:
for instance in this reaction:
In 1975, Evans and Golob showed that deprotonation of oxy-Cope substrates to form the corresponding alkali metal alkoxides resulted in rate accelerations of 1010 to 1017 for the oxy-Cope rearrangement. Typically potassium hydride and 18-crown-6 are employed in order to generate a fully dissociated potassium alkoxide :
It is noteworthy that the anion-accelerated oxy-Cope reaction can proceed with high efficiency even in systems that do not permit good orbital overlap, as seen in this example from Schreiber's synthesis periplanone B :
The authors remark that the corresponding neutral oxy-Cope and siloxy-Cope rearrangements failed, giving only elimination products at 200 °C.
Variations
Another variation of the Cope rearrangement is the heteroatom Cope reactions such as the
Aza-Cope rearrangement. Another widely studied [3, 3]
sigmatropic rearrangement is the
Claisen rearrangement. Also see the
divinylcyclopropane-cycloheptadiene rearrangement.
References
Category:Rearrangement reactions
Category:Name reactions
![FMO Analysis for the [3,3] Sigmatropic Reactions (8.7)](http://web.archive.org./web/20110531211849im_/http://i.ytimg.com/vi/SMiyWmV0WxQ/0.jpg "FMO Analysis for the [3,3] Sigmatropic Reactions (8.7)")
![The 253 series (253系?) is a DC electric multiple unit operated by East Japan Railway Company (JR East). It was introduced on March 19, 1991, and is used exclusively on the Narita Express, a limited express service to and from Narita International Airport. They were manufactured by Kinki Sharyo and Tokyu Car Corp. Sets were formed as 3-car and 6-car units, running as up to 12-car formations in service. From 1 October 2009, all 3-car sets were removed from Narita Express operations.[1]](http://web.archive.org./web/20110531211849im_/http://cdn.wn.com/pd/1d/69/2b4cb0901db0aedc74c7bff1ca01_grande.jpg "The 253 series (253系?) is a DC electric multiple unit operated by East Japan Railway Company (JR East). It was introduced on March 19, 1991, and is used exclusively on the Narita Express, a limited express service to and from Narita International Airport. They were manufactured by Kinki Sharyo and Tokyu Car Corp. Sets were formed as 3-car and 6-car units, running as up to 12-car formations in service. From 1 October 2009, all 3-car sets were removed from Narita Express operations.[1]")
![The 253 series (253系?) is a DC electric multiple unit operated by East Japan Railway Company (JR East). It was introduced on March 19, 1991, and is used exclusively on the Narita Express, a limited express service to and from Narita International Airport. They were manufactured by Kinki Sharyo and Tokyu Car Corp. Sets were formed as 3-car and 6-car units, running as up to 12-car formations in service. From 1 October 2009, all 3-car sets were removed from Narita Express operations.[1]](http://web.archive.org./web/20110531211849im_/http://cdn.wn.com/pd/1d/69/2b4cb0901db0aedc74c7bff1ca01_thumb.jpg "The 253 series (253系?) is a DC electric multiple unit operated by East Japan Railway Company (JR East). It was introduced on March 19, 1991, and is used exclusively on the Narita Express, a limited express service to and from Narita International Airport. They were manufactured by Kinki Sharyo and Tokyu Car Corp. Sets were formed as 3-car and 6-car units, running as up to 12-car formations in service. From 1 October 2009, all 3-car sets were removed from Narita Express operations.[1]")
