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Acknowledgment Financial support by the CTQ2008-05027/BQU (2008-2011) and a grant, by Universidad de Alcalá (Spain) (M.C.) are gratefully acknowledged.

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Presentation on theme: "Acknowledgment Financial support by the CTQ2008-05027/BQU (2008-2011) and a grant, by Universidad de Alcalá (Spain) (M.C.) are gratefully acknowledged."— Presentation transcript:

1 Acknowledgment Financial support by the CTQ2008-05027/BQU (2008-2011) and a grant, by Universidad de Alcalá (Spain) (M.C.) are gratefully acknowledged. Conclusion In this communication we report the synthesis of a series of N-(5’-alkynylpiridin-2’-yl) pyridinium aminides, through a copper- and fosfine-free method, based on a catalytic system Pd(II)/DABCO, and using either conventional heating or microwaves. 4 The use of another solvent non-toxic and non-flammable like water in presence of DABCO and Pd 2 (PPh 3 ) 2 in microwaves generates the Sonogashira coupling products, together with unexpected side products as a result of addition over the alkyne. Introduction Palladium-catalyzed cross-coupling Sonogashira reaction is one of the most important methods for the formation of C-C bonds. 1 Particularly, alkynes are useful building blocks in organic synthesis and a representative functional group in many natural and bioactive compounds. In the last year, our program has been related with the synthetic utility of N-(azin-2’-yl)pyridinium aminides 1, as building blocks in the synthesis of azine derivatives, using Sonogashira reaction (Scheme 1). Halogenation of pyridinium N-(pyridin-2’-yl)aminide 1 can be regioselectively achieved in the 5’-position of the pyridine with N-halosuccinimide in equimolar amount. 2 The synthesis of substituted N-aminides 3 has been performed by treatment the N-(5’-iodopyridin-2’-yl)pyridinium aminide 2 with the corresponding acetylene in the presence of 1,4-diazabiciclo[2.2.2]octane (DABCO) and a palladium salt (Scheme 1). 3 Additionally, a new environmentally friendly methodology has been developed carrying out the reaction under microwave irradiation. 4 References 1. Yin, L.; Liebscher, J. Chem. Rev. 2007, 107, 133-173. 2. Burgos, C.; Delgado, F.; García-Navío, J. L.; Izquierdo, M. L.; Álvarez-Builla, J. Tetrahedron 1995, 31, 8649-8654. 3. Li, J.H.; Liang, Y.; Xie, Y.X. J. Org.Chem. 2005, 70, 4393-4396.. 4. Kappe, O.C. Angew. Chem. Ed. 2004, 43, 6250-6284. Córdoba López, Marta; Izquierdo Ceinos, Mª Luisa; Alvarez-Builla, Julio*. Departamento de Química Orgánica, Universidad de Alcalá, 28871- Alcalá de Henares, Madrid, Spain. E-mail address: marta.cordoba@uah.es Synthesis of Substituted Pyridinium N-Aminides by Sonogashira Reactions Method A: Aminide 2 (1mmol), alkyne (2 mmol), Pd(OAc) 2 (5mmol %) and DABCO (6 mmol) in acetonitrile as solvent at 40ºC for 24 h. Method B: Aminide 2 (1mmol), alkyne (2 mmol), DABCO (6 mmol), PdCl 2 (PPh 3 ) 2 (5mmol %) in acetonitrile as solvent at 60ºC for 10 minutes using MW. Method C: Aminide 2 (1mmol), alkyne (2 mmol), DABCO (6 mmol), PdCl 2 (PPh 3 ) 2 (5mmol %) in water as solvent at 70ºC for 15 minutes using MW. Sonogashira reaction have been performed in three different conditions; one using conventional heating and two using microwaves. Modifications in the solvent from acetonitrile to water do not improve the final result because the formation of compound 3 was detected in some cases. Method C: Aminide 2 (1mmol), alkyne (2 mmol), DABCO (6 mmol), PdCl2(PPh3)2 (5mmol %) in water as solvent at 70ºC for 15 minutes using MW.

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