CERIUM(III) CARBONATE HYDROXIDE NANOPARTICLES ENCRUSTED BY METALLIC PALLADIUM. SYNTHESIS AND INVESTIGATION
Abstract
Cerium(III) nitrate and urea solution mixture were treated by hydrothermal and microwavehydrothermal methods, as a result cerium(III) carbonate hydroxide nanoparticles (22-37 nm) were obtained. Cerium(III) carbonate hydroxide nanoparticles, encrusted by palladium were obtained using palladium reduction process from cerium(III) carbonate hydroxide solution. It is shown, that palladium occurrence disturbs hard hydrogen bond system, leading to carbonate hydroxide nanoparticles structure disorder and also increases efficiency of catalytic reactivity process.
About the Authors
T. M. Buslaeva
Moscow Technological University (Institute of Fine Chemical Technologies)
Russian Federation
Moscow, 119571 Russia
Russian Federation
Moscow, 119571 Russia
E. V. Kopylova
Moscow Technological University, Shared Equipment Center
Russian Federation
Moscow, 119571 Russia
Russian Federation
Moscow, 119571 Russia
V. I. Popenko
Engelhardt Institute of Molecular Biology of Russian Academy of Sciences
Russian Federation
Moscow, 119991 Russia
Russian Federation
Moscow, 119991 Russia
A. M. Potapova
Moscow Technological University (Institute of Fine Chemical Technologies)
Russian Federation
Moscow, 119571 Russia
Russian Federation
Moscow, 119571 Russia
V. V. Fomichev
Moscow Technological University (Institute of Fine Chemical Technologies), Moscow Technological University, Shared Equipment Center
Russian Federation
Moscow, 119571 Russia
Russian Federation
Moscow, 119571 Russia
References
1. Feyman R.P. // Engineering and Science. 1960. V 23. № 5. Р. 22–36.
2. Seal S., Kuiry S.C., Bera D., Meyyappan M., McCutchen M.L. Synthesis of carbon nanotubes filled with palladium nanoparticles using arc discharge in solution: pat. 7438885 B1 US. Patent publication number US 10/891,570; Publication date 21.10.08/
3. Deshmukh K., Qureshi Z., Bhatte K., Venkatesan K., Srinivasan T., Rao P., Bhanage B. // New J. Chem. 2011. V. 35. Р. 2747–275.
4. Guisbiers G., Abudukelimu G., Hourlier D. // Nanoscale Research Letters. 2011. V. 6. Р. 396.
5. Parkash S. Petroleum Fuels Manufacturing Handbook: including Specialty Products and Sustainable Manufacturing Techniques. McGraw-Hill, 2009. 463 p. ISBN:0071632409
6. Speight J.G., Ozum B. Petroleum Refining Processes. Marcel Dekker, Inc., 2002. 722 p. ISBN:0824705998.
7. Toebes M.L., van Dillen J.A., de Jong K.P. // J. Mol. Catal. A.: Chemical. 2001. V. 173. P. 75–98.
8. Sohn S., Kwon Y., Kim Y., Kim D. // Powder Technology. 2004. V. 142. P. 136–153.
9. Riccardi C.S., Lim R.C., M.L. dos Santos M.L., Bueno P.R., Varela J.A., Longo E. // J. Solid State Ionics. 2009. V. 180. P. 288–291.
10. Masui T., Fujiwara K., Machida K., Adachi G., Sakato T., Mori H. // Chem. Mater. 1997. V. 9. P. 2197–2204.
11. Brun M., Berthet A., Bertolini J.C. // J. Electron Spectroscopy and Related Phenomena. 1999. V. 104. P. 55–60.
12. Nakamoto K. Infrared and Raman Spectra of Inorganic and Coordination Compounds: 4th ed. John Wiley & Sons, 1986. 245 p.
For citation:
Buslaeva T.M., Kopylova E.V., Popenko V.I., Potapova A.M., Fomichev V.V. CERIUM(III) CARBONATE HYDROXIDE NANOPARTICLES ENCRUSTED BY METALLIC PALLADIUM. SYNTHESIS AND INVESTIGATION. Fine Chemical Technologies. 2016;11(1):23-28. https://doi.org/10.32362/2410-6593-2016-11-1-23-28
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