Buy (625 RUB)
Generate QR code
Open Access
Subscription or Fee Access
Hydrogenation of (–)-Carvone in the Presence of Gold Catalysts: the Role of Support
https://doi.org/10.18412/1816-0387-2017-6-561-567
Abstract
Liquid phase hydrogenation of biomass derived (–)-carvone into industrially valuable dihydrocarvone was studied over monometallic Au catalysts supported on alumina, titania and zirconia, as well as on mesoporous carbon support Sibunit in methanol as a solvent (100 °C, hydrogen pressure 9 bar). It was shown that among the three types of functional groups present in carvone, which can be hydrogenated, namely C=O, conjugated and isolated C=C groups, hydrogenation of the latter was predominant. The catalytic activity was found to depend on the catalyst support type. Under comparative reaction conditions conversion of carvone increased in the following sequence: Au/C << Au/ZrO2 < Au/Al2O3 << Au/TiO2. Higher activity of Au catalysts over metal oxides compared to Au/C can be caused by the presence of acid sites as well as oxygen vacancies in their structure allowing strong adsorption of carvone through its carbonyl moiety. All catalysts supported on oxides showed similar selectivity to trans- and cis-dihydrocarvone with the ratio between isomers (trans- : cis-isomer) being about 1.8, while this value for Au/C is close to 3.9, which can be related to much low carvone conversion in the latter case.
About the Authors
Yu. S. Demidova
Boreskov Institute of Catalysis, Novosibirsk
Russian Federation
Russian Federation
A. V. Simakov
Centro de Nanociencias y Nanotecnología, UNAM, Ensenada, B.C.
Mexico
Mexico
I. L. Simakova
Boreskov Institute of Catalysis, Novosibirsk
Russian Federation
Russian Federation
D. Yu. Murzin
Process Chemistry Centre, Åbo Akademi University, Turku/Åbo
Finland
Finland
References
1. Corma А., Iborra S., Velty A. // Chemical Reviews. 2007. V. 10. Р. 2411—2502.
2. Мурзин Д.Ю., Симакова И.Л. // Катализ в промышленности. 2011. №. 3. С. 8—40.
3. Murzin D.Yu., Demidova Y., Hasse B., Etzold B., Simakova I.L. // Producing fuels and fine chemicals from biomass using nanomaterials / Ed. Luque, R., Balu, A.M. CRC Press. 2013. P. 267-283.
4. Bernas H., Simakova I., Mäki-Arvela P., Prosvirin I., Leino R., Murzin D.Yu. // Catalysis Letters. 2012. V. 142. P. 690-697.
5. Deliy I.V., Danilova I.G., Simakova I.L., Zaccheria F., Ravasio N., Psaro R. // Chemical Industries. V. 123. Catalysis of Organic Reactions / Ed. Prunier, M.L.. Boca Raton, USA. 2009. P. 87-92.
6. Mäki-Arvela P., Kuusisto J., Mateos Sevilla E., Simakova I.L., Mikkola J.-P., Myllyoja J., Salmi T., Murzin D.Yu. // Applied Catalysis A: General. 2008. V. 345 (2). P. 201-212.
7. Simonov M.N., Simakova I.L., Parmon V.N. // Reaction Kinetics and Catalysis Letters. 2009. V. 97 (1). P. 157-162.
8. Maki-Arvela P., Hajek J., Salmi T., Murzin D.Yu. // Applied Catalysis A: General. 2005. V. 292. P. 1—49.
9. Яковлева М.П., Хасанова Э.Ф., Талипов Р.Ф., Ишмуратов Г.Ю. // Вестник Башкирского университета. 2009. Т. 14 (3-1). С. 1072—1098.
10. Ишмуратов Г.Ю., Яковлева М.П., Валеева Э.Ф., Выдрина В.А., Толстиков Г.А. // Химия растительного сырья. 2011. Т. 2. С. 5—26.
11. Fahlbusch K.-G., Hammerschmidt F.-J., Panten J., Pickenhagen W., Schatkowski D., Bauer K., Surburg H. // Flavors and fragrances Ullmann’s Encyclopedia of Industrial Chemistry. Wiley-VCH Verlag GmbH & Co KGaA, Weinheim. 2003. V. 15. P. 73—198.
12. Ishmuratov G.Y., Yakovleva M.P., Valeeva E.F., Vydrina V.A., Tolstikov G.A. // Russian Journal of Bioorganic Chemistry. 2012. V. 38. P. 667—688.
13. Волчо К.П., Рогоза Л.Н., Салахутдинов Н.Ф., Толстиков Г.А. Препаративная химия терпеноидов: В 5 ч. Ч. 2. Моно- циклические монотерпеноиды: лимонен, карвон и их производные. Новосибирск: АРТ-АВЕНЮ, 2008. 231 с.
14. Клабуновский Е.И., Годунова Л.Ф., Маслова Л.K. // Известия АН СССР, Серия Химическая. 1972. Т. 5. С. 1063— 1068.
15. Claus P. // Applied Catalysis A: General. 2005. V. 291. P. 222- 229.
16. Cárdenas-Lizana F., Keane M.A. // Journal of Materials Science. 2013. V. 48. P. 543-564.
17. Milone C., Ingoglia R., Pistone A., Neri G., Frusteri F., Galvano S. // Journal of Catalysis. 2004. V. 222. P. 348-356.
18. Milone C., Crisafulli C., Ingoglia R., Schipilliti L., Galvano S. // Catalysis Today. 2007. V. 122. P. 341-351.
19. Mertens P.G.N., Vandezande P., Ye X., Poelman H., Vankelecom I.F.J., De Vos D.E. // Applied Catalysis A: General. 2009. V. 355. P. 176-183.
20. Zhang Y., Cui X., Shi F., Deng Y. // Chemical Reviews. 2012. V. 112. P. 2467-2505.
21. Hashmi A.S.K., Hutchings G.J. // Angewandte Chemie. 2006. V. 45. P. 7896-7936.
22. Corma A., Garcia H. // Chemical Society Reviews. 2008. V. 37. P. 2096-2126.
23. Stratakis M., Garcia H. // Chemical Reviews. 2012. V. 112. P. 4469-4506.
24. Mitsudome T., Kaneda K. // Green Chemistry. 2013. V. 15. P. 2636-2654.
25. McEwan L., Julius M., Roberts St., Fletcher J.C.Q. // Gold Bulletin. 2010. V. 43. P. 298-306.
26. Demidova Yu.S., Suslov E.V., Simakova O.A., Simakova I.L., Volcho K.P., Salakhutdinov N.F., Murzin D.Yu. // Catalysis Today. 2015. V. 241. P. 189—194.
27. Corti C.W., Holliday R.J., Thompson D.T. // Applied Catalysis A: General. 2005. V. 291. P. 253—261.
28. Simakova O.A., Murzina E.V., Mäki-Arvela P., Leino A.-R., Campo B.C., Kordás K., Willför S.M., Salmi T., Murzin D.Yu. // Journal of Catalysis. 2011. V. 282. P. 54-64.
29. Demidova Yu.S., Simakova I.L., Estrada M., Beloshapkin S., Suslov E.V., Korchagina D.V., Volcho K.P., Salakhutdinov N.F., Simakov A.V., Murzin D.Yu. // Applied Catalysis A: General. 2013. V. 464—465. P. 348—356.
30. Simakova O.A., Leino A.-R., Campo B.C., Mäki-Arvela P., Kordás K., Mikkola J.-P., Murzin D.Yu. // Catalysis Today. 2010. V. 150. P. 32-36.
31. De Bruyn M., Coman S., Bota R., Parvulescu V.I., De Vos D.E., Jacobs P.A. // Angewandte Chemie International Edition. 2003. V. 42. P. 5333-5336.
32. Grunwaldt J.D., Kiener C., Wögerbauer C., Baiker A. // Journal of Catalysis. 1999. V. 181. P. 223-232.
33. Schubert M.M., Hackenberg S., van Veen A.C., Muhler M., Plzak V., Behm R.J. // Journal of Catalysis. 2001. V. 197. P. 113-122.
Review
For citations:
Demidova Yu.S., Simakov A.V., Simakova I.L., Murzin D.Yu. Hydrogenation of (–)-Carvone in the Presence of Gold Catalysts: the Role of Support. Kataliz v promyshlennosti. 2017;17(6):561-567. (In Russ.) https://doi.org/10.18412/1816-0387-2017-6-561-567
Views:
623
Email this article 