• Save
  • Cite
  • Citation Alert
  • Share

An Application of Microemulsion Method for Synthesis of Copper-Zinc Materials

Justyna Pawlonka1, Grzegorz Słowik1, Wojciech Gac1 and Tadeusz Borowiecki1
View More View Less
1 Faculty of Chemistry, Department of Chemical Technology, Maria Curie-Sklodowska University 3 M. Curie-Skłodowskiej Square, 20-031 Lublin, Poland
Volume/Issue:
Volume 68: Issue 1-2
Published:
17 Oct 2014
Page Count:
107–120
DOI:
https://doi.org/10.2478/umcschem-2013-0009
Open access

Abstract

Microemulsion method was used for preparation of copperzinc mixed oxides. Samples were prepared from the solutions containing zinc and copper nitrates. Sodium carbonate was used as a precipitant and hydrazine as reducing agent. Water-in-oil (W/O) microemulsions were formed by the application of cyclohexane, isopropyl alcohol, and hexadecyltrimethylammonium bromide (CTAB) as surfactant. The aim of the studies was determination of the influence of the sequence of synthesis stages on the formation of materials, their surface and structural properties. Thermal decomposition studies of materials were carried out by infrared spectroscopy. The physicochemical properties were characterized by nitrogen adsorption-desorption method, X-ray diffraction (XRD) and temperature-programmed reduction (TPR).

Keywords:

References

  • 1. M. Boutonnet, S. Lögdberg and E.E. Svensson, Current Opinion in Colloid & Interface Science, 13, 270, (2008).

  • 2. A. Bumajdad, J. Eastoe, M. I. Zaki, R. K. Heenan and L. Pasupulety, Journal of Colloid and Interface Science, 312, 68, (2007).

  • 3. A. Moezzi, A. M. McDonagh and M. B. Cortie, Chem. Eng. J., 185–186, 1, (2012).

  • 4. H. Lu, X. Yu, Z. Zeng, D. Chen, K. Bao, L. Zhang, H. Wang, H. Xu and R. Zhang, Ceramics International, 37, 287, (2011).

  • 5. N. L. Tarwal, K. V. Gurav, S. H. Mujawar, S. B. Sadale, K. W. Nam, W. R. Bae, A. V. Moholkar, J. H. Kim, P. S. Patil and J. H. Jang, Ceramics International, 40, 7669, (2014).

  • 6. C. Wang, D. Chen and T. Huang, Colloids and Surfaces A:Physicochem. Eng. Aspects, 189, 145, (2001).

  • 7. I. Capek, Emulsion Science and Technology, WILEY-VCH, Weinheim 2009.

  • 8. G. Xiong, L. Luo, C. Li and X. Yang, Energy & Fuels, 23, 1342, (2009).

  • 9. S. Hingorani, V. Pillai, P. Kumar, M. S. Multani and D. O. Shah, Mat. Res. Bull., 28, 1303, (1993).

  • 10. G. Fierro, M. L. Jacono, M. Inversi, P. Porta, F. Cioci and R. Lavecchia, Applied Catalysis: General, 137, 327, (1996).

  • 11. S. H. Taylor, G. J. Hutchings, A. A. Mirzaei, Catalysis Today, 84, 113. (2003).

  • 12. W. Tong, A. West, K. Cheung, K. Yu and S. C. E. Tsang, ACS Catal., 3, 1231, (2013).

  • 13. P. Pfeifer, K. Schubert and G. Emig, Applied Catalysis A: General, 286, 175, (2003).

  • 14. J. Agrell, M. Boutonnet, I. Melián-Cabrera and J. L. G. Fierro, Applied Catalysis A: General, 253, 201, (2003).

Annales UMCS, Chemia

The Journal of Maria Curie-Sklodowska University

Annales UMCS, Chemia
Volume 68: Issue 1-2

Journal Information

Online ISSN:
2083-358X
First Published:
22 Jan 2010
Language:
English

Metrics

All Time Past Year Past 30 Days
Abstract Views 0 0 0
Full Text Views 14 14 14
PDF Downloads 3 3 3