| Title | Enamides and Enesulfonamides as Nucleophiles: Formation of Complex Ring Systems through a Platinum(II)-Catalyzed Addition/Friedel-Crafts Pathway |
| Publication Type | Journal Article |
| Year of Publication | 2009 |
| Authors | Kozak, JA, Dodd, JM, Harrison, TJ, Jardine, KJ, Patrick, BO, Dake, GR |
| Journal | Journal of Organic Chemistry |
| Volume | 74 |
| Pagination | 6929-6935 |
| Date Published | Sep |
| Type of Article | Article |
| ISBN Number | 0022-3263 |
| Keywords | CATALYZED CYCLOISOMERIZATIONS, CLOSING, CYCLIZATION ROUTE, DIASTEREOSELECTIVE SYNTHESIS, ELECTRON-RICH OLEFINS, ENANTIOSELECTIVE REACTIONS, LYCOPODIUM ALKALOIDS, METATHESIS, N-ACYL-ENAMINES, NITROGEN-HETEROCYCLES, REARRANGEMENTS, SKELETAL |
| Abstract | Cyclic enamine derivatives (enesulfonamides and enamides) tethered to an 1-arylalkynyl fragment undergo a platinum(II)-catalyzed tandem alkyne addition/Friedel-Crafts ring closure to form nitrogen-containing polycyclic structures. Regioselectivity in the initial addition of the enesulfonamide or enamide nucleophile to the platinum(II)-alkyne complex is important. Electron-rich arenes and heterocycles led to the formation of products resulting from an Initial 6-endo cyclization. Twenty-three examples of this process are presented. |
| URL | <Go to ISI>://000269656400004 |
