CONVERSION OF ETHANOL INTO LINEAR PRIMARY ALCOHOLS
811
the bimetallic catalyst facilitates a sharp increase in its 15. Nutt, M.O., Heck, K.N., Alvarez, P., and Wong, M.S.,
Appl. Catal., B, 2006, vol. 69, p. 115.
activity and selectivity for the formation of high-molec-
ular-weight alcohols from ethanol. Hypotheses were
proposed to explain this phenomenon.
1
6. Nikolaev, S.A., Vasil’kov, A.Yu., Smirnov, V.V., and
Tyurina, L.A., Kinet. Catal., 2005, vol. 46, no. 6, p. 867.
1
7. Lanin, S.N., Pichugina, D.A., Shestakov, A.F.,
Smirnov, V.V., Nikolaev, S.A., Lanina, K.S.,
Vasil’kov, A.Yu., Fam Tien Zung, and Beletskaya, A.V.,
Russ. J. Phys. Chem. A, 2010, vol. 84, no. 12, p. 2133.
ACKNOWLEDGMENTS
This work was supported by the Russian Science
Foundation (agreement no. 15-13-30034) and per-
formed with the use of equipment acquired in accor-
1
8. Tarasov, A.L., Korolev, Yu.A., Kustov, L.M., Niko-
laev, S.A., and Smirnov, V.V., Catal. Ind., 2010, vol. 2,
no. 2, p. 108.
dance with the Program of the Development of the 19. Nikolaev, S., Pichugina, D., and Mukhame-
Moscow State University. S.A. Nikolaev acknowledges
dzyanova, D.F., Gold Bull., 2012, vol. 45, no. 4, p. 221.
the support from the Russian Foundation for Basic 20. Nikolaev, S.A., Golubina, E.V., Kustov, L.M., Tara-
sov, A.L., and Tkachenko, O.P., Kinet. Catal., 2014,
Research (grant no. 16-03-00073). A.V. Chistyakov is
vol. 55, no. 3, p. 311.
grateful to the Russian Foundation for Basic Research
2
1. Nikolaev, S.A., Chistyakov, A.V., Chudakova, M.V.,
for support of catalyst structure detremination (grant
nos. 15-33-70036 and 15-03-06479).
Kriventsov, V.V., Yakimchuk, E.P., and Tsodikov, M.V.,
J. Catal., 2013, vol. 297, p. 296.
2
2. Nikolaev, S.A., Golubina, E.V., Krotova, I.N., Shi-
lina, M.I., Chistyakov, A.V., and Kriventsov, V.V.,
Appl. Catal., B, 2015, vols. 168–169, p. 303.
REFERENCES
1
. Biomass Conversion: The Interface of Biotechnology,
Chemistry and Materials Science, Baskar, C., Baskar, S.,
and Dhillon, R.S., Eds., Berlin: Springer, 2012. doi
2
3. Poling, B.E., Prausnitz, J.M., and O’Connell, J.P., The
Properties of Gases and Liquids, New York: McGraw-
Hill, 2000, 5th ed. . doi 10.1036/0070116822
10.1007/978-3-642-28418-2
2
4. Riittonen, T., Toukoniitty, E., Madnani, D.K.,
Leino, A.-R., Kordas, K., Szabo, M., Sapi, A.,
Arve, K., Wärnå, J., and Mikkola, J.-P., Catalysts,
2012, vol. 2, no. 1, p. 68.
2. Naik, S.N., Goud, V.V., Rout, P.K., and Dalai, A.K.,
Renewable Sustainable Energy Rev., 2010, vol. 14, p. 578.
3
. Sun, J. and Wang, Y., ACS Catal., 2014, vol. 4, p. 1078.
2
5. Ogo, S., Onda, A., Iwasa, Y., Hara, K., Fukuoka, A.,
and Yanagisawa, K., J. Catal., 2012, vol. 296, p. 24.
6. Tsuchida, T., Sakuma, S., Takeguchi, T., and Ueda, W.,
Ind. Eng. Chem. Res., 2006, vol. 45, no. 25, p. 8634.
4
. Angelici, C., Weckhuysen, B.M., and Bruijnincx, P.C.,
ChemSusChem, 2013, vol. 6, no. 9, p. 1595.
2
5. Demirbas, A., Biofuels: Securing the Planet’s Future
Energy Needs, London: Springer, 2009. doi 10.1007/
2
2
2
7. Yang, J., Zhang, Y., Yu, Y.-X., and Li, Y.-G., J. Super-
978-1-84882-011-1
crit. Fluids, 2005, vol. 36, p. 145.
6
. Tjurina, L.A., Smirnov, V.V., Potapov, D.A., Niko-
laev, S.A., Esipov, S.E., and Beletskaya, I.P., Organo-
metallics, 2004, vol. 23, no. 6, p. 1349.
8. Dellis, D., Chalaris, M., and Samios, J., J. Phys. Chem. B,
2005, vol. 109, no. 39, p. 18575.
9. Besenbacher, F., Chorkendorff, I., Clausen, B.S.,
Hammer, B., Molenbroek, A.M., Nørskov, J.K., and
Stensgaard, I., Science, 1998, vol. 279, p. 1913.
7
. Ellert, O.G., Tsodikov, M.V., Nikolaev, S.A., and
Novotortsev, V.M., Russ. Chem. Rev., 2014, vol. 83,
no. 8, p. 718.
3
0. Cárdenas-Lizana, F., Gómez-Quero, S., Baddeley, C.J.,
8
. Haruta, M., Yamada, N., Kobbayashi, T., and Iijima, S.,
and Keane, M.A., Appl. Catal., A, 2010, vol. 387, p. 155.
J. Catal., 1989, vol. 115, p. 301.
3
1. Zhang, L., Tian, R., Hu, P., Ma, Y., and Xia, D., Rare
9. Pichugina, D.A., Kuz’menko, N.E., and Shestakov, A.F.,
Metal Mater. Eng., 2010, vol. 39, p. 945.
Russ. Chem. Rev., 2015, vol. 84, no. 11, p. 1114.
3
2. Tkachenko, O.P., Kustov, L.M., Nikolaev, S.A.,
Smirnov, V.V., Klementiev, K.V., Naumkin, A.V.,
Volkov, I.O., Vasil’kov, A.Yu., and Murzin, D.Yu.,
Top. Catal., 2009, vol. 52, no. 4, p. 344.
10. Nikolaev, C.A., Permyakov, N.A., Smirnov, V.V.,
Vasil’kov, A.Yu., and Lanin, S.N., Kinet. Catal., 2010,
vol. 51, no. 2, p. 288.
1
1. Nikolaev, S.A. and Krotova, I.N., Pet. Chem., 2013, 33. Duh, F.-C., Lee, D.-S., and Chen, Y.-W., Mod. Res.
vol. 53, no. 6, p. 394.
Catal., 2013, vol. 2, p. 1.
1
2. Smirnov, V.V., Nikolaev, S.A., Tyurina, L.A., and 34. White, B., Yin, M., Hall, A., Le, D., Stolbov, S., Rah-
Vasil’kov, A.Yu., Pet. Chem., 2006, vol. 46, no. 4, p. 296.
3. Smirnov, V.V., Lanin, S.N., Nikolaev, S.A.,
man, T., Turro, N., and O’Brien, S., Nano Lett., 2006,
vol. 6, p. 2095.
1
Murav’eva, G.P., Tyurina, L.A., Vlasenko, E.V., and 35. Nikolaev, S.A., Zanaveskin, L.N., Smirnov, V.V.,
Vasil’kov, A.Yu., Russ. Chem. Bull., 2005, vol. 54,
Aver’yanov, V.A., and Zanaveskin, K.L., Russ. Chem.
Rev., 2009, vol. 78, no. 3, p. 231.
no. 10, p. 2286.
1
4. Keane, M.A., Gómez-Quero, S., and Cárdenas-Liz-
ana, F., ChemCatChem, 2009, vol. 1, p. 270.
Translated by V. Makhlyarchuk
KINETICS AND CATALYSIS Vol. 57 No. 6 2016