REFERENCES   189

            Kuznicki, S. M., Bell, V. A., Nair, S., Hillhouse, H. W., Jacubinas, R. M., Braun-
              barth, C. M., Toby, B. H., and Tsapatsis, M. (2001) Nature 412, 720.
            Li, J. and Talu, O. (1993) J. Chem. Soc., Faraday Trans. 89, 1683.
            Lok, B. M., Patton, C. A., Gajek, R. T., Cannan, T. R., and Flanigen, E. M. U.S. Patent
              4,440,871 (1984).
            Lok, B. M., Vail, L. D., and Flanigen, E. M. U.S. Patent 4,758,419 (1988).
            Loewenstein, W. (1954) Amer. Mineralog. 39, 92.
            Ma, Y. H. (1984) Fundamentals of Adsorption. (A. L. Myers and G. Belfort, eds.). Engi-
              neering Foundation, New York, NY, p. 315.
            McCusker, L. B. and Seff, K. (1981) J. Am. Chem. Soc. 103, 3441.
            McKee, D. W. U.S. Patent 3,140,933 (1964).
            Mellot, C. and Lignieres, J. (1997) Physical Adsorption: Experiment, Theory and Appli-
              cations. (J. Fraissard and C. W. Conner, eds.). Kluwer Academic, Boston, MA.
            Milton, R. M. U.S. Patent 2,882,243, to Union Carbide Corporation, (1959).
            Milton, R. M. U.S. Patent 2,882,244, to Union Carbide Corporation, (1959).
            Mortier, W. J. (1982) Proceedings 6th International Zeolite Conference (D. Olson and
              A. Bisio, eds.). Butterworth, Surrey, UK, p. 734.
            Mortier, W. J., Bosmann, H. J., and Uytterhoeven, J. B. (1972) J. Phys. Chem. 76, 650.
            Ogawa, K., Nitta, M., and Aomura, K. (1978) J. Phys. Chem. 82, 1655.
            Olson, D. H. (1968) J. Phys. Chem. 72, 1400.
            Ozin, G. A., Hugues, F., McIntosh, D. F., and Mattar, S. (1983) ACS Symp. Ser. 218,
              409.
            Padin, J., Rege, S. U., Yang, R. T., and Cheng, L. S. (2000) Chem. Eng. Sci. 55, 4525.
            Perego, G., Millini, R., and Bellussi, G. (1998) Synthesis and characterization of
              molecular sieves containing transition metals in the framework. In Molecular Sieves.
              (H. G. Karge and J. Weitkamp, eds.). Springer, Berlin Germany, and New York, NY,
              pp. 187–228.
            Razmus, D. M. and Hall, C. K. (1991) AIChE J 37, 769.
            Reed, T. B. and Breck, D. W. (1956) J. Am. Chem. Soc. 78, 5972.
            Rietveld, H. M. (1967) Acta Crystallog. 22, 151.
            Shepelev, Y. F, Anderson, A. A., and Smolin, Y. I. (1990) Zeolites 10, 61.
            Smith, J. V. and Dowell, L. G. (1968) Z. Kristallogr. 126, 135.
            Stach, H., Thamm, H., Janchen, J., Fiedler, K., and Schirmer, W. (1984) Proceedings 6th
              International Zeolite Conference (D. Olson and D. Bisio, eds.). Butterworth, Guildford,
              Surrey, UK, p. 225.
            Szostak, R. (1998) Molecular Sieves, 2nd Ed. Blackie Academic & Professional, New
              York, NY.
            Takahashi, A., Yang, F. H., and Yang, R. T. (2000) Ind. Eng. Chem. Res. 39.
            Taramasso, M., Perego, G., and Notari, B. U.S. Patent 4,410,501 (1983).
            Thompson, R. W. (1998) Recent advances in the understanding of zeolite synthesis. In
              Molecular Sieves. (H. G. Karge and J. Weitkamp, eds.). Springer, Berlin Germany, and
              New York, NY, pp. 1–34.
            Tielens, F., Baron, G. V., and Geerlings, P. (2002) Fundamentals of Adsorption 7.
              (K. Kaneko et al. eds.). IK International, Chiba City, Japan, p. 393.