References
- 1. Ahluwalia, RK, Hua, TQ, Peng, JK, Lasher, S, McKenney, K., Sinha, J. & Gardiner, M. (2010). Int. J. Hydrogen Energy, 35, 4171.
- 2. Sakintuna, B., Lamaridarkrim, F., & Hirscher, M. (2007). Int. J. Hydrogen Energy, 32, 1121.
- 3. Yu Y, Zhao N, Shi C, He C, Liu E, Li J. (2012). Int. J. of Hydrogen Energy, 37, 5762.
- 4. Zheng J, Liu X, Xu P, Liu P, Zhao Y, Yang J. (2012). Int. J. Hydrogen Energy, 37, 1048.
- 5. Tzimas E, Filiou C, Peteves SD, Veyret JB (2003). Hydrogen Storage: State-of-the-Art and Future Perspective. The Netherlands, Institute for Energy - JRC IE.
- 6. Bogdanov, B., Georgiev, D., Angelova, K., & Yanevak (June 4-5, 2009). Proceedings Int. Sc.conf. on: Economics and Society development on the Base of Knowledge, Stara Zagora, Bulgaria.
- 7. Rocks in your Gas Tank. NASA Everyday News: http://www.nasa.gov
- 8. Tschernich, R.W. (1992). Zeolites of the World. Geoscience Press.
- 9. Lesnicenoks, P., Sivars, A., Grinberga, L., & Kleperis, J. (2012). IOP Conf. Ser.: Mater. Sci. Eng., 38, 012060.
- 10. The mineral and locality database: www. mindat.org
- 11. Jentys, A., & Lercher, J.A. (2001). Studies in Surface Science and Catalysis, Vol. 137, Elsevier Science, B.V., Amsterdam.
- 12. Karge, H.G. (1998). Micro. Meso Mater., 22, 547.
- 13. Song, W., Light, G., Grassian, VH, & Larsen, SC (2005). Environ. Sci. Tech., 39, 1214.
- 14. Brunner, GO (1990). Zeolites, 10, 612.10.1016/S0144-2449(05)80322-7
- 15. Weitkamp, J. (2009). Encyclopedia of Electrochemical Power Sources: Fuels - Hydrogen Storage Zeolites.10.1016/B978-044452745-5.00330-0
- 16. Ginberga, L., & Kleperis. J. (2011). Composite Nanomaterials for Hydrogen Technologies. In: Advances in Composite Materials for Medicine and Nanotechnology, InTech, 04/2011