Sponged Structured Silica Containing Cobalt Oxide as Catalyst for Hydrolysis of Water Solution of Sodium Borohydride

Authors

  • Jon Efendi
  • Yuan Lai Sin
  • Hadi Nur

DOI:

https://doi.org/10.11113/mjfas.v7n2.251

Keywords:

Sponge structured, silica, cobalt oxide, catalyst,

Abstract

Micro structured silica containing cobalt oxide materials was prepared by the calcination of silica containing cobalt salicylaldimine complexes. The SEM image showed that the prepared materials from higher content of cobalt salicylaldimine complexes had sponge-like structured. The IR and DR UV-Vis, spectra confirmed the presence of different species of cobalt oxide in materials originated from higher contain of the complex, which is attributed as Co3O4. The Co3O4 was believed as active species in catalytic hydrolysis of sodium borohydride. The catalytic testing also showed that the material originated from higher content of complex generated much higher hydrogen gas compare to the lower ones.

References

S. Orimo, Y. Nakamori, J.R. Eliseo, A. Züttel, C.M. Jensen, Chem. Rev. 107 (2007) 4111–4132.

S.C. Amendola, S.L. Sharp-Goldman, M.S. Janjua, N.C. Spencer, M.T. Kelly, P.J. Petillo, M. Binder, Int. J. Hydrogen Energy 25 (2000) 969–975. [3] H.I. Schlesinger, H.C. Brown, A.E. Finholt, J.R. Gilbreath, H.R. Hoekstra, E.K. Hyde, J. Am. Chem. Soc. 75 (1953) 215–219.

V.G. Minkina, S.I. Shabunya, V.I. Kalinin, V.V. Martynenko, A.L. Smirnova, Int. J. Hydrogen Energy 33 (2008) 5629–5635.

U.B. Demirci, P. Miele, Energy Environ. Sci. 2 (2009) 627–637.

P.A. Storozhenko, R.A. Svitsyn, V.A. Ketsko, A.K. Buryak, A.V. Ul’yanov, Russ. J. Inorg. Chem. 50 (2005) 980–985.

F.H. Stephens, V. Pons, R.T. Baker, Dalton Trans. 25 (2007) 2613–2626.

Q. Xu, M. Chandra, J. Alloys Compd. 446–447 (2007) 729–732.

T. Umegaki, J.-M. Yan, X.-B. Zhang, H. Shioyama, N. Kuriyama, Q. Xu, Int. J. Hydrogen Energy 34 (2009) 2303–2311.

H.-L. Jiang, S.K. Singh, J.-M. Yan, X.-B. Zhang, Q. Xu, ChemSusChem 3 (2010) 541.

M. Chandra, Q. Xu, J. Power Sources 156 (2006) 855–860.

Y. Kojima, K.I. Suzuki, K. Fukumoto, M. Sasaki, T. Yamamoto, Y. Hawai, H. Hayashi, Int. J. Hydrogen Energy 27 (2002) 1029–1034.

M. Chandra, Q. Xu, J. Power Sources 156 (2006) 190–194.

V.I. Simagina, P.A. Storozhenko, O.V. Netskina, O.V. Komova, G.V. Odegova, Y.V. Larichev, A.V. Ishchenko, A.M. Ozerova, Catal. Today 133 (2008) 253–259.

Ö. Metin, S. Özkar, Energy Fuels 23 (2009) 3517–3526.

J. Andrieux, D. Swierczynski, L. Laversenne, A. Garron, S. Bennici, C. Goutaudier, P. Miele, A. Auroux, B. Bonnetot, Int. J. Hydrogen Energy 34 (2009) 938–951

Downloads

Published

24-07-2014

Issue

Vol. 7 No. 2 (2011): Journal of Fundamental Sciences

Section

Article