SHABUNINA et al.
1578
8. Kopchuk, D.S., Khasanov, A.F., Kovalev, I.S.,
Zyryanov, G.V., Rusinov, V.L., and Chupakhin, O.N.,
Mendeleev Commun., 2013, vol. 23, p. 209.
9. Kopchuk, D.S., Nikonov, I.L., Zyryanov, G.V., Kova-
lev, I.S., Rusinov, V.L., and Chupakhin, O.N., Chem.
Heterocycl. Compd., 2014, vol. 50, p. 907.
10. Kopchuk, D.S., Nikonov, I.L., Zyryanov, G.V., Kova-
lev, I.S., Taniya, O.S., Rusinov, V.L., and Chupa-
khin, O.N., Russ. J. Org. Chem., 2015, vol. 51, p. 1170.
methylsilane as internal standard. The melting points
were measured on a Boetius melting point apparatus.
The mass spectra (electrospray ionization) were ob-
tained on a Bruker Daltonics MicrOTOF-Q II instru-
ment. The elemental compositions were determined on
a Perkin Elmer 2400 Series II CHN analyzer.
This study was performed under financial support
by the Russian Science Foundation (project no. 18-73-
10119) and by the Council for Grants at the President
of the Russian Federation (project no. MK-
644.2017.3).
11. Kopchuk, D.S., Krinochkin, A.P., Kozhevnikov, D.N.,
and Slepukhin, P.A., Polyhedron, 2016, vol. 118, p. 30.
12. Prokhorov, A.M., Kozhevnikov, V.N., Kopchuk, D.S.,
Bernard, H., Le Bris, N., Tripier, R., Handel, H.,
Köenig, B., and Kozhevnikov, D.N., Tetrahedron, 2011,
vol. 67, p. 597.
REFERENCES
1. Prokhorov, A.M., Kozhevnikov, D.N., Rusinov, V.L.,
Matern, A.I., Nikitin, M.M., Chupakhin, O.N., Eremen-
ko, I.L., and Aleksandrov, G.G., Russ. J. Org. Chem.,
2005, vol. 41, p. 1702.
13. Krinochkin, A.P., Kopchuk, D.S., Kim, G.A., Ganeb-
nykh, I.N., Kovalev, I.S., Zyryanov, G.V., Li, F.,
Rusinov, V.L., and Chupakhin, O.N., Polyhedron, 2017,
vol. 134, p. 59.
2. Zvirzdinaite, M., Garbe, S., Arefyeva, N., Krause, M.,
von der Stück, R., and Klein, A., Eur. J. Inorg. Chem.,
2017, p. 2011.
14. Kopchuk, D.S., Prokhorov, A.M., Slepukhin, P.A., and
Kozhevnikov, D.N., Tetrahedron Lett., 2012, vol. 53,
p. 6265.
3. Yamada, A., Mabe, T., Yamane, R., Noda, K., Wasada, Y.,
Inamo, M., Ishihara, K., Suzuki, T., and Takagi, H.D.,
Dalton Trans., 2015, vol. 44, p. 13979.
15. Kozhevnikov, V.N., Shabunina, O.V., Kopchuk, D.S.,
Ustinova, M.M., König, B., and Kozhevnikov, D.N.,
Tetrahedron, 2008, vol. 64, p. 8963.
4. Kozhevnikov, V.N., Kozhevnikov, D.N., Shabunina, O.V.,
Rusinov, V.L., and Chupakhin, O.N., Tetrahedron Lett.,
2005, vol. 46, p. 1791.
16. Kopchuk, D.S., Krinochkin, A.P., Kim, G.A., and
Kozhevnikov, D.N., Mendeleev Commun., 2017,
vol. 27, p. 394.
5. Kopchuk, D.S., Khasanov, A.F., Kim, G.A., Nosova, E.V.,
Zyryanov, G.V., Kovalev, I.S., Rusinov, V.L., and Chupa-
khin, O.N., Russ. Chem. Bull., Int. Ed., 2015, vol. 64,
p. 872.
17. Krinochkin, A.P., Kopchuk, D.S., Chepchugov, N.V.,
Kovalev, I.S., Zyryanov, G.V., Rusinov, V.L., and Chu-
pakhin, O.N., Russ. J. Org. Chem., 2017, vol. 53, p. 963.
18. Dey, B.B., J. Chem. Soc., 1914, vol. 105, p. 1039.
6. Pabst, G.R. and Sauer, J., Tetrahedron Lett., 1998, vol. 39,
19. Platas-Iglesias, C., Mato-Iglesias, M., Djanashvili, K.,
Muller, R.N., Vander Elst, L., Peters, J.A., De Blas, A.,
and Rodriguez-Blas, T., Chem. Eur. J., 2004, vol. 10,
p. 3579.
p. 6687.
7. Rykowski, A., Branowska, D., and Kielak, J., Tetra-
hedron Lett., 2000, vol. 41, p. 3657.
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