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Synthesis of nanoparticles of Y(OH)CO3 and Y2O3 using liquid interfaces and modification of their surface by palladium

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Abstract

The nano-composite materials with different morphology and structure, including yttrium basic carbonate or yttrium oxide and palladium metal are obtained. The optimal conditions for synthesis of stable nanoparticles of yttrium basic carbonate are defined. It is established that yttrium basic carbonate goes to the oxide at 900 °C. Samples of nanomaterials were characterized by transmission electron microscopy, infrared spectroscopy, X-ray diffraction, X-ray photoelectron spectroscopy.

About the Authors

E. A. Mischihina
M.V. Lomonosov Moscow State University of Fine Chemical Technologies, 86, Vernadskogo pr., Moscow 119571
Russian Federation


E. A. Khristich
M.V. Lomonosov Moscow State University of Fine Chemical Technologies, 86, Vernadskogo pr., Moscow 119571
Russian Federation


V. I. Popenko
Институт Молекулярной Биологии им. В.А. Энгельгардта РАН
Russian Federation


L. I. Boguslavsky
M.V. Lomonosov Moscow State University of Fine Chemical Technologies, 86, Vernadskogo pr., Moscow 119571
Russian Federation


V. V. Fomichev
M.V. Lomonosov Moscow State University of Fine Chemical Technologies, 86, Vernadskogo pr., Moscow 119571
Russian Federation


T. M. Buslaeva
M.V. Lomonosov Moscow State University of Fine Chemical Technologies, 86, Vernadskogo pr., Moscow 119571
Russian Federation


E. V. Proskuryakova
M.V. Lomonosov Moscow State University of Fine Chemical Technologies, 86, Vernadskogo pr., Moscow 119571
Russian Federation


References

1. Sohn S., Kwon Y., Kim Y., Kim D. Synthesis and characterization of near-monodisperse yttria particles by homogeneous precipitation method // Powder Technology. 2004. V. 142. Р. 136-153.

2. Христич Э.А., Мищихина Е.А., Хлебников В.К., Каплун А.П., Попенко В.И., Буслаева Т.М., Богуславский Л.И. Система двух смешивающихся жидкостей как генератор наночастиц. Синтез наночастиц BаSO4 при контакте растворов прекурсоров в воде и тетрагидрофуране // Вестник МИТХТ. 2011. Т. 6. № 4. С. 40-45.

3. Boguslavsky L.I., Bronner F., Kleinzeller A. Investigation of membrane enzyme systems - New York: Academy Press, 1980. V. 14. P. 1 - 55.

4. Yaguzhinsky L.S., Boguslavsky L.I., Volkov A.G., Rakhmaninova A.B. Synthesis of ATP Coupled with Action of Membrane Proton Pumps at the Octane-Water Interface // Nature. 1976. V. 259. P. 494-496.

5. Korgel B.A. Assembly at liquid interfaces // Nature Materials. 2010. № 9. P. 701 - 703.

6. Fratzl R., Weinkamer P. Nature's Hierarchical Materials // Progress in Material Science. 2007. № 52. P. 1263-1334.

7. Tabony J., Glade N., Demongeot J., Papaseit C. Biological self-organization by way of microtubule reaction-diffusion process // Langmuir. 2002. V. 18. P. 7196-7207.

8. Imai H. Self-organized formation of hierarchical structures // Topics in Current Chemistry. 2007. V. 270. P. 43-72.

9. Богуславский Л.И. Методы получения наночастиц и их размерно-чувствительные физические параметры. Вестник МИТХТ. 2010. Т. 5. № 5. С. 3-12.

10. Jones F., Clegg J., Oliveira A., Rohl A.L., Ogden M.I., Parkinson G.M., Fogg A. M., Reyhani M. Anomalous behaviour within a systematic series of barium sulfate growth modifiers // Cryst.Eng.Comm. 2001. V. 40. № 3. P. 1-3.

11. Sastry M. Phase transfer protocols in nanoparticles synthesis // Current Science. 2003. V.85. P. 1735-1745.

12. Coveney P.V., Davey R., Griffin J.L.W, He Y., Hamlin J.D., Stackhouse S., Whiting A. A new design strategy for molecular recognition in heterogeneous systems: A universal crystal-free growth inhibitor for barium sulfate // J. Am. Chem. Soc. 2000. V. 122. P. 11557- 11558.

13. Pileni M.P. Control of the Size and Shape of inorganic Nanocrystals at various scale from nano to macrodomains // J. Phys. Chem. 2007. V. 111. № 26. P. 9019-9038.

14. Traina C.A., Schwarts J. Surface Modification of Y2O3 nanoparticles // Langmuir. 2007. V. 23. P. 9158-9161.


For citation:

Mischihina E.A., Khristich E.A., Popenko V.I., Boguslavsky L.I., Fomichev V.V., Buslaeva T.M., Proskuryakova E.V. Synthesis of nanoparticles of Y(OH)CO3 and Y2O3 using liquid interfaces and modification of their surface by palladium. Fine Chemical Technologies. 2011;6(6):93-98. (In Russ.)

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ISSN 2410-6593 (Print)
ISSN 2686-7575 (Online)

86, L-119, Vernadskogo pr., Moscow, 119571, Russian Federation
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