Hetero Breslow -analogues the case of phosphorus

1. Műegyetem 1782 Hetero Breslow-analogues the case of phosphorus Zsolt Kelemen, László Nyulászi Department of Inorganic and Analytical Chemistry, Budapest University of Technology and Economics nyulaszi@mail.bme.hu

2. Carbenes NHC carbenes D. Martin, M. Soleilhavoup, G. Bertrand, Chem. Sci. 2011 2, 389-399 A. J. Arduengo et al. J. Am. Chem. Soc.1991,113, 361-363

3. Carbene complexesNobel Prizes in Chemistry Richard R. Schrock 2005 Robert H. Grubbs 2005 Ernst Otto Fischer 1973 Yves Chauvin 2005

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5. Breslow-intermediate δ+ δ- Benzoin condensation

6. B1-Vitamin, the Thiamin Transketolase

7. Deoxi Breslow-intermediate δ- δ+ C. E. I. Knappke, J. M. Neudçrfl, A. J. Wangelin, Org. Biomol. Chem. 2010, 8, 1695N. Kuhn, M. Göhner, M. Steimann, Z. Naturforsch. B 2002, 57, 631 G. H. Alt, J. Org. Chem. 1968, 33, 2858.

8. The phosporusanalogue δ- δ+ E. Fuchs, H. Heydt, M. Regitz, W. W. Schoeller, T. Busch, Tetrahedron Lett. 1989, 30, 5111-5114. E. Fuchs, B. Breit, H. Heydt, W. Schoeller, T. Busch, C. Krüger, P. Betz,M. Regitz, Chem. Ber. 1991, 124,2843-2855. A. N. Chernega, A. V. Ruban, V. D. Romanenko, L. N. Markovskii, A. A. Korkin, M. Y. Antipin, Y. T. Struchkov, Heteroatom Chem. 1991, 2, 229-241. L. Weber Eur. J. Inorg. Chem 2000 2425-2441 A.J. Arduengo III ,  C. J. Carmalt ,  J. A. C. Clyburne ,  A. H. Cowley, R. Pyati Chem. Commun., 1997, 981-982

9. A new phosphanido imidazolium zwitterion P.K.Majhi,G.Schnakenburg, Z.Kelemen,L.Nyulaszi, D. Gates,R.Streubelto be published

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11. Tautomers

12. Phosphino carbenes J. I. Bates, P. Kennepohl, D. P. Gates, Angew. Chem.2009, 121, 10028 – 10031; Angew. Chem. Int. Ed. 2009, 48, 9844 –9847. D. Mendoza-Espinosa, B. Donnadieu, G. Bertrand, J. Am. Chem. Soc.2010, 132, 7264 –7265.

13. Tautomers

14. The nitrogen analogue ? • A. Danopoulos, K. Y. Monakhov, P. Braunstein, Chem. Eur. J. 2013, 19, 450 – 455

15. The silicon analogue A. P. Singh, P. P. Samuel, K. C. Mondal, H. W. Roesky, N. S. Sidhu, B. Dittrich,Organometallics, 2013, 32 , 354–357

16. The silicon analogue A. P. Singh, P. P. Samuel, K. C. Mondal, H. W. Roesky, N. S. Sidhu, B. DittrichOrganometallics, 2013, 32 , 354–357

17. Main goals -relative stability -Dual reactivity?

18. Results

19. Relative stability R=H X B3LYP/6-311+G**

20. X=O, S, NH, PH, CH2, NH2

21. Relative stability R=H X B3LYP/6-311+G**

22. X=O, S

23. Relative stability R=H X B3LYP/6-311+G**

24. X=CR2, SiR2

25. Relative stability R=H X B3LYP/6-311+G**

26. X=PR2. NR2 Possible chemical equilibrium?

27. Aromaticity, NICS(0) R=H X B3LYP/6-311+G**

28. Aromaticity, NICS(1) R=H X B3LYP/6-311+G**

29. Pniktogen group R1 R2 B3LYP/6-311+G**

30. Substituent effect B3LYP/6-311+G**

31. Summary -possible tautomeric equilibrium-dual reactivity X=PR

32. Acknowledgments Financial support from New SzechenyiPlan TAMOP-4.2.2/B-10/1-2010-0009 is gratefully acknowledged

33. Rotamers P-phenyl bond length 1.852 Å 1.788 Å P-imidazolium-unit bond length 1.839 Å 1.806 Å Relative stability B3LYP/6-311+G** 0.0 2.1 B97D/6-311+G** 0.0 0.7 M06-2X/6-311+G** 0.0 0.9

34. Further methods

35. Difference beetwen the Si an C analogue