1986 Fiscal Year Final Research Report Summary
Nitrene Transfer Reaction in Pd Coordination Sphere
Project/Area Number |
59470015
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Research Category |
Grant-in-Aid for General Scientific Research (B)
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Allocation Type | Single-year Grants |
Research Field |
有機化学一般
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Research Institution | Faculty of Technology, Gunma University |
Principal Investigator |
MIGITA Toshihiko Professor Gunma University, 工学部, 教授 (40008412)
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Project Period (FY) |
1984 – 1986
|
Keywords | Azide / unsaturated ether / unsaturated sulfide / Palladium( <II> ) catalysis / π-アリル錯体 |
Research Abstract |
Azidoformate reacts with allylic ethers to give the <alpha> -imines specifically under catalyzed by Pd( <II> ). Mchanistic studies revealed the followings: 1) The same <alpha> -imines were formed almost quantitatively by non-catalyzed reaction of azide and the corresponding vinylic ethers. 2) Isomerization of an allylic ether to the corresponding vinylic ether was much slower than the above <alpha> -imine formation even in the presence of Pd( <II> ). 3) Rates of the <alpha> -imine formation were found to be first order each in the ether and in the azide. 4) Other unsaturated ethers such as homoallylic ethers also afforded to the <alpha> -imine by the catalyzed reaction with the azide. These ethers, however, isomerized to the corresponding allylic ethers under the reaction conditions. 5) Easiness of <alpha> -imine formation decreased as the following order; methanesulfonyl azide azido-formate phenyl azide stannyl azide. These results suggest the following mechanism: Isomerization of the allylic ether to the vinylic ether is promoted by the new Pd( <II> ) complex formed by exchanging the ligand PhCN to the azide molecule. The vinylic ether reacts with the azide to give <alpha> -imine via 1,3-dipolar addition followed by heterolysis of the triazine, involving with nitrogen evolution and 1,2-shift of hydrogen or alkyl groups. Reaction of allylic sulfides with azidoformate did not give <alpha> -imines, but the products derived from ylide formation between sulfide and nitrene, even in the presence of Pd( <II> ).
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Research Products
(2 results)