1. J.W. Dijkstra, D. Jansen, R.W. van den Brink, T.A. Peters, M. Stange, R. Bredesen, A. Goldbach, H. Xu, A. Gottschalk, S. Tlatlik, A. Doukelis, Development of hydrogen membrane reactors for CO2 capture, in: L.I. Eide (series Ed.), Carbon dioxide capture for storage in deep geologic formations, vol. 3, CPL Press, 2009.

2. Innovations in palladium membrane research;Paglieri;Sep. Purif. Meth.,2002

3. Membrane Reactor Technologies Ltd. (MRT), Hydrogen Generation. (n.d), Retrieved March 18, 2010 from http://www.membranereactor.com/products.html.

4. H. Kameyama, S. Nishio, H. Kurokawa, Y. Shirasaki, I. Yasuda, Z.Q. Xue, T. Yamada, T. Matsuoka, Assessment of distributed carbon capture and sequestration in Japan ∼ Distributed CCS for city gas system in Japan ∼, Retrieved March 18, 2010, from http://www.wgc2009.com/admin%5CarchivosNew%5CSpecial%20Projects%5C4.%20IGU%20Best%20Practices%5C4.%20IGU%20Best%20Practices%20FINAL%20-%20CD%20contents/6.%20Sustainable%20Development%20-%20Assessment%20of%20distributed%20carbon%20capture%20&%20sequestration%20in%20Japan.pdf, 2009.

5. D.L. McKinley, Metal alloy for hydrogen separation and purification, US Patent 3,350,845 (1967).