Abstract
Published data and original results are surveyed on the synthesis, structure, and properties of a new type of inclusion compounds based on porous substances (zeolites) containing encapsulated transition-metal complexes.
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References
G. A. Ozin and C. Gil,Chem. Rev.,89, No. 8, 1749–1764 (1989).
S. L. Suib,Chem. Rev.,93, No. 2, 803–826 (1993).
G. A. Ozin, and J. Godber,J. Phys. Chem.,93, No. 4, 878–893 (1989).
B. C. Gates,Chem. Rev.,95, No. 3, 511–522 (1995).
D. Breck,Zeolite Molecular Sieves [Russian translation], Mir, Moscow (1976).
R. Barrer,Zeolite Hydrothermal Chemistry [Russian translation], Mir, Moscow (1985).
J. Rabo,Zeolite Chemistry and Catalysis on Zeolites [Russian translation], Mir, Moscow (1980).
F. Cavani, F. Trifiro, and A. Vaccari,Catal. Today,11, 173–301 (1991).
M. Ogawa, and K. Kuroda,Chem. Rev.,95, No. 2, 399–438 (1995).
A. Clearfield,Chem. Rev.,88, 125–148 (1988).
P. Behrens,Adv. Mater.,5, No. 2, 127–132 (1993).
Yu. G. Gol'tsov, L. A. Matkovskaya, and V. G. Il'in,Ross. Khim. Zh.,39, No. 6, 83–92 (1995).
G. A. Ozin, S. Ozkar, H. O. Pastore, et al.,J. Chem. Soc. Chem. Commun., No. 3, 141–143 (1991).
H. O. Pastore, G. A. Ozin, and A. J. Poe,J. Am. Chem. Soc.,115, No. 4, 1215–1230 (1993).
Z. Zhang, and W. M. Sachtler,J. Chem. Soc. Faraday Trans.,86, No. 12, 2313–2319 (1990).
J. R. Pearce, B. L. Gustafson, and J. H. Lunsford,Inorg. Chem.,20, No. 9, 2957–2960 (1981).
W. De Wilde, G. Peeters, and H. Lunsford,J. Phys. Chem.,84, No. 18, 2306–2310 (1981).
P. Peigneur, J. H. Lunsford, W. De Wilde, and R. A. Schoonheydt,J. Phys. Chem.,81, No. 12, 1179–1187 (1977).
T. I. Morrison, G. K. Shenoy, L. E. Iton, et al.,J. Phys. Chem.,76, No. 12, 5665–5668 (1982).
I. Mochida, A. Kato, and T. Seiyama,Bull. Chem. Soc. Jpn.,45, No. 7, 2230–2231 (1972).
A. G. Gabrielov, O. T. Tkachenko, E. S. Shpiro, and B. V. Romanovskii,Abstracts for the 4th All-Union Conference on Zeolites in Catalysis [in Russian], Nauka, Moscow (1989), pp. 96–99.
A. N. Zakharov, T. V. Korol'kova, and B. V. Romanovskii,Neftekhimiya,18, No. 1, 105 (1978).
C. Bowers, and P. K. Dutta,J. Phys. Chem.,93, No. 6, 2596–2603 (1989).
T. R. Krawietz, D. H. Barich, L. V. Beck, et al.,J. Am. Chem. Soc.,117, No. 41, 10407–10408 (1995).
P. A. Cybulski, D. J. Gillis, and M. C. Baird,Inorg. Chem.,32, No. 4, 460–462 (1993).
S. V. Gudkov, E. S. Shpiro, B. V. Romanovskii, et al.,Izv. AN SSSR, Ser. Khim. No. 11, 2448–2451 (1980).
A. Borvornwattananont, and T. Bein,J. Phys. Chem.,96, No. 23, 9447–9456 (1992).
S. Kawi, J.-R. Chang, and B. C. Gates,J. Am. Chem. Soc.,115, No. 11, 4830–4843 (1993).
C. L. Tway, and T. M. Apple,Inorg. Chem.,31, No. 13, 2885–2888 (1992).
Y. Umemura, Y. Minai, and T. Tominaga,J. Chem. Soc. Chem. Commun., No. 24, 1822–1823 (1993).
Y. Umemura, Y. Minai, N. Koga, and T. Tominaga,J. Chem. Soc. Chem. Commun., No. 7, 893–894 (1994).
W. H. Quayle and J. H. Lunsford,Inorg. Chem.,21, No. 1, 97–103 (1982).
R. F. Howe, and J. H. Lunsford,J. Phys. Chem.,79, No. 17, 1836–1842 (1975).
P. S. Dai, and J. H. Lunsford,Inorg. Chem.,19, No. 13, 262–264 (1980).
J. A. Incavo, and P. K. Dutta,J. Phys. Chem.,94, No. 7, 3075–3081 (1990).
W. H. Quayle, G. Peeters, G. L. De Roy, et al.,Inorg. Chem.,21, No. 6, 2226–2231 (1982).
K. Maruszewski, D. R. Strommen, and J. K. Kincaid,J. Am. Chem. Soc.,115, No. 18, 8345–8350 (1993).
P. K. Dutta, and W. Turbeville,J. Phys. Chem.,96, No. 23, 9410–9416 (1992).
P. Pichat,J. Phys. Chem.,79, No. 20, 2127–2129 (1975).
Y. Huang,J. Catal.,61, No. 2, 461–476 (1980).
J. Michalik, M. Narayana, and L. Kevan,J. Phys. Chem.,88, No. 22, 5236–5240 (1984).
W. V. Cruz, C. W. Leung, and K. Seff,J. Am. Chem. Soc.,100, No. 22, 6997–7003 (1978).
D. E. De Vos, D. L. Vanoppen, X. Y. Li, et al.,Chem. Eur. J.,1, No. 2, 144–149 (1995).
D. E. De Vos, E. J. Feijen, R. A. Schoonheydt, et al.,J. Am. Chem. Soc.,116, No. 11, 4746–4752 (1994).
T. Kimura, A. Fukuoka, and M. Ichikawa,Catal. Lett.,4, No. 4–6, 279–285 (1990).
K. J. Balkus, and J. P. Ferraris,J. Phys. Chem.,94, No. 21, 8019–8020 (1990).
E. Paez-Mozo, N. Gabriunas, F. Lucaccioni, et al.,J. Phys. Chem.,97, No. 49, 12819–12827 (1993).
A. G. Gabrielov, K. J. Balkus, S. L. Bell, et al.,Microporous Mater.,2, No. 2, 119–126 (1994).
K. Mizuno, and J. H. Lunsford,Inorg. Chem.,22, No. 23, 3484–3486 (1983).
R. S. Drago, I. Bresinska, J. E. George, et al.,J. Am. Chem. Soc.,110, No. 1, 304–305 (1988).
R. J. Taylor, R. S. Drago, and J. E. George,J. Am. Chem. Soc.,111, No. 17, 6610–6615 (1989).
R. S. Drago and I. Bresinska, “Zeolite containing entrapped anionic material,”US Patent No. 4830999, B 01 J 29/10, Publ. 16.05.89.
R. J. Taylor, R. S. Drago, and J. P. Hage,Inorg. Chem.,31, No. 2, 253–258 (1992)
Yu. G. Gol'tsov, L. A. Matkovskaya, V. G. Voloshinets, and V. G. Il'in,Teor. Éksp. Khim.,30, No. 5, 293–297 (1994).
Yu. G. Gol'tsov, L. A. Matkovskaya, V. G. Voloshinets, and V. G. Il'in,Teor. Éksp. Khim.,30, No. 6, 332–336 (1994).
L. O. Matkovskaya, Yu. G. Gol'tsov, and V. G. Il'in,Submission 95042125 Ukraine, IPC C 01 B 33/34, C 01, C 3/11, B 01 J 29/08: Faujasites Containing Encapsulated Iron Cyanide Complexes as Adsorbents or Ion Exchangers and a Methods of Preparing Them [in Ukrainian], Submitted 27 April, 1995.
S. K. Sur, and R. J. Bryant,J. Phys. Chem.,97, No. 11, 2686–2689 (1993).
S. Kawi, and B. C. Gates,J. Chem. Soc. Chem. Commun., No. 9, 702–704 (1992).
A. M. Liu, T. Shido, and M. Ichikawa,J. Chem. Soc. Chem. Commun, No. 5, 507–508 (1995).
J. Novakova, L. Kubelkova, P. Hulstede, et al.,J. Mol. Catal. A: Chem.,111, No. 1/2, 123–133 (1996).
Yu. G. Gol'tsov, V. V. Zhilinskaya, and V. G. Il'in,Teor. Éksp. Khim.,29, No. 6, 527–532 (1993).
V. V. Zhilins'ka, Yu. G. Gol'tsov, and V. G. Il'in,Submission 93006301 Ukraine, IPC 5 C 01 B 33/34, C 01, C 3/11, B 01 J 29/08: Faujasites Containing Encapsulated Cobalt Cyanide Complexes as Adsorbents or Ion Exchangers and a Method of Preparing Them [in Ukrainian], Submitted 26 August, 1993.
G. Vanko, Z. Homonnay, S. Nagy, et al.,J. Chem. Soc. Chem. Commun., No. 6, 785–786 (1996).
P. C. H. Mitchell,Chem. and Ind., No. 9, 308–311 (1991).
N. Herron,Inorg. Chem.,25, No. 26, 4714–4717 (1986).
L. A. Matkovskaya, Yu. G. Gol'tsov, V. G. Il'in, et al.,Proceedings of the 8th International Conference on Adsorption Process Theory and Practice [in Russian], Moscow (1997), pp. 233–235.
L. A. Matkovskaya, Yu. G. Gol'tsov, V. G. Il'in, et al.,Abstracts for the 14th Ukrainian Conference on Inorganic Chemistry [in Ukrainian], Kiev (1996), p. 97.
P. Gallezot, Y. Ben Taarit, and B. Imelik,J. Catal.,26, No. 3, 481–483 (1972).
P. Gallezot, Y. Ben Taarit, and B. Imelik,J. Catal.,26, No. 3, 295–302 (1972).
L. Kevan,J. Am. Chem. Soc.,109, No. 1, 1–7 (1987).
P. E. Riley, and K. Seff,J. Chem. Soc. Chem. Commun., No. 23, 1287–1288 (1972).
P. Gallezot, and B. Imelik,J. Phys. Chem.,77, No. 5, 652–656 (1973).
Yu. G. Gol'tsov, L. A. Matkovskaya, V. G. Voloshinets, and V. G. Il'in,Teor. Éksp. Khim.,32, No. 1, 43–46 (1996).
R. E. De Simone, and R. S. Drago,J. Am. Chem.Soc.,92, No. 8, 2343–2352 (1970).
W. Lubitz, C. J. Winscom, H. Deigruber, and R. Moseler,Z. Naturforsch. A,42, No. 9, 970–986 (1987).
R. L. Garten, W. N. Delgass, and M. Boudart,J. Catal.,18, No. 1, 90–107 (1970).
Yu. Ya. Kharitonov, V. I. Gol'danskii, G. B. Seifer, et al.,Izv. AN SSSR, Ser. Khim., No. 2, 271 (1970).
Yu. G. Gol'tsov, L. A. Matkovskaya, and V. G. Il'in,Proceedings of the 8th International Conference on Adsorption Process Theory and Practice [in Russian], Moscow (1997), pp. 271–273.
R. A. Schoonheydt, and J. Pelgrims,J. Chem. Soc. Faraday Trans. II,79, No. 8, 1169–1180 (1983).
L. Ukrainczyk, M. Chibwe, T. J. Pynavaia, and S. A. Boyd,J. Phys. Chem.,98, No. 10, 2668–2676 (1994).
R. A. Schoonheydt, F. Velghe, and B. Uytterhoeven,Inorg. Chem.,18, No. 7, 1842–1847 (1979).
K. Mizuno, S. Imamura, and J. H. Lunsford,Inorg. Chem,23, No. 22, 3510–3514 (1984).
J. H. Bayston, R. N. Beale, N. K. King, and M. E. Winfield,Austral. J. Chem.,16, No. 6, 954–968 (1963).
G. B. Seifer, and Z. A. Makarova,Dokl. AN SSSR,169, No. 2, 358–360 (1966).
G. B. Seifer,Zh. Neorg. Khim.,7, No. 6, 1242–1246 (1962).
G. B. Seifer, and Z. A. Makarova,Zh. Neorg. Khim.,9, No. 9, 2085–2090 (1964).
G. B. Seifer, and Z. A. Makarova,Zh. Neorg. Khim.,11, No. 5, 1056–1062 (1966).
M. M. Chamberlain, and A. F. Green,J. Inorg. Nucl. Chem.,25, No. 11, 1471–1475 (1963).
G. B. Seifer,Zh. Neorg. Khim.,7, No. 3, 482–486 (1962).
K. E. Lewis, D. M. Golden, and G. P. Smith,J. Am. Chem. Soc.,106, No. 14, 3905–3912 (1984).
E. J. P. Feijen, J. A. Marten, and P. A. Jacobs,J. Chem. Soc. Faraday Trans.,92, No. 17, 3281–3285 (1996).
M. L. Cano, F. L. Cozens, V. Fornes, et al.,J. Phys. Chem.,100, No. 46, 18145–18151 (1996).
M. L. Cano, F. L. Cozens, H. Garsia, et al.,J. Phys. Chem.,100, No. 46, 18152–18157 (1996).
H. Garsia, S. Garsia, J. Perez-Prieto, and J. C. Scaiano,J. Phys. Chem.,100, No. 46, 18158–18164 (1996).
F. L. Cozens, M. Regimbald, H. Garsia, and J. C. Scaiano,J. Phys. Chem.,100, No. 46, 19165–18172 (1996).
M. Alvaro, G. A. Facey, H. Garsia, et al.,J. Phys. Chem.,100, No. 46, 18173–18176 (1996).
C. Huber, K. Moller, and T. Bein,J. Chem. Soc. Chem. Commun., No. 22, 2619–2620 (1994).
T. Yamamoto, T. Shido, S. Inagaki, et al.J. Am. Chem. Soc.,118, No. 24, 5810–5811 (1996).
N. Herron, G. D. Stucky, and C. A. Tolman,J. Chem. Soc. Chem. Commun., No. 20, 1521–1522 (1986).
C. Bowers, and P. K. Dutta,J. Catal.,122, No. 2, 271–279 (1990).
M. Ledney, and P. K. Dutta,J. Am. Chem. Soc.,117, No. 29, 7687–7695 (1996).
K. J. Balkus, M. Eissa, and R. Levado,J. Am. Chem. Soc.,117, No. 43, 10753–10754 (1996).
B. M. Weckhuysen, A. A. Verberckmoes, L. Fu, and R. A. Schoonheydt,J. Phys. Chem.,100, No. 22, 9456–9461 (1996).
L. Kubelkova, L. Drozdova, L. Brabec, et al.,J. Phys. Chem.,100, No. 38, 15517–15524 (1996).
G.-C. Shen, T. Shido, and M. Ichikawa,J. Phys. Chem.,100, No. 42, 16947–16956 (1996).
S. B. Ogunwumi, and T. Bein,J. Chem. Soc. Chem. Commun., No. 9, 901–902 (1997).
L. Kubelkova, J. Vylita, L. Brabec, et al.,J. Chem. Soc. Faraday Trans.,92, No. 11, 2035–2041 (1996).
Z. Li, and T. E. Mallouk,J. Phys. Chem.,91, No. 3, 643–648 (1987).
Z. Li, C. M. Wang, L. Persaud, and T. E. Mallouk,J. Phys. Chem.,92, No. 9, 2592–2597 (1988).
Z. Li, C. Lai, and T. E. Mallouk,Inorg. Chem.,28, No. 2, 178–182 (1989).
D. Rong, Y. I. Kim, and T. E. Mallouk,Inorg. Chem.,29, No. 8 1531–1535 (1990).
D. Rong, H. G. Hong, Y. I. Kim, et al.,Coord. Chem. Rev.,97, 237–248 (1990).
G. Calzaferri, M. Lanz, and J. Li,J. Chem. Soc. Chem. Commun., No. 13, 1313–1314 (1995).
C. Senarante, J. Zhang, M. D. Baker, et al.,J. Phys. Chem.,100, No. 14, 5849–5862 (1996).
L. Persaud, A. J. Bard, A. Campion, et al.,J. Am. Chem. Soc.,109, No. 24, 7309–7314 (1987).
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L. V. Pisarzhevskii Institute of Physical Chemistry, National Academy of Sciences of Ukraine, 31 Prospekt Nauki, Kiev 252039, Ukraine. Translated from Teoreticheskaya i Éksperimental'naya Khimiya, Vol. 35, No. 4, pp. 199–214, July–August, 1999.
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Gol'tsov, Y.G. Synthesis and properties of inclusion compounds: Zeolites containing encapsulated transition-metal complexes. Theor Exp Chem 35, 183–197 (1999). https://doi.org/10.1007/BF02511514
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DOI: https://doi.org/10.1007/BF02511514