Porous Aluminophosphates: From Molecular Sieves To Designed Acid Catalysts

dc.creatorPastore H.O.
dc.creatorColuccia S.
dc.creatorMarchese L.
dc.date2005
dc.date2015-06-26T14:08:55Z
dc.date2015-11-26T14:08:35Z
dc.date2015-06-26T14:08:55Z
dc.date2015-11-26T14:08:35Z
dc.date.accessioned2018-03-28T21:09:10Z
dc.date.available2018-03-28T21:09:10Z
dc.identifier
dc.identifierAnnual Review Of Materials Research. , v. 35, n. , p. 351 - 395, 2005.
dc.identifier15317331
dc.identifier10.1146/annurev.matsci.35.103103.120732
dc.identifierhttp://www.scopus.com/inward/record.url?eid=2-s2.0-23144450326&partnerID=40&md5=9e36c6809330607322289f746667eebf
dc.identifierhttp://www.repositorio.unicamp.br/handle/REPOSIP/93671
dc.identifierhttp://repositorio.unicamp.br/jspui/handle/REPOSIP/93671
dc.identifier2-s2.0-23144450326
dc.identifier.urihttp://repositorioslatinoamericanos.uchile.cl/handle/2250/1241040
dc.descriptionThis review covers the synthesis, characterization, and physico-chemical properties of microporous and mesoporous aluminophosphates and silicoaluminophosphates molecular sieves. Particular emphasis is given to the materials that have found applications as acid catalysts. We consider the evolution of the synthesis procedures from the first discoveries to the current methodologies and give perspectives for new possible synthesis strategies. Emphasis is given to the use of specially prepared precursors/reactants designed for the use as molecular sieves. Experimental (especially MAS-NMR and FTIR spectroscopy) and theoretical approaches to the description of the Si insertion into the ALPO framework and to the acidic properties of SAPOs and MeAPSOs materials are discussed. Copyright © 2005 by Annual Reviews. All rights reserved.
dc.description35
dc.description
dc.description351
dc.description395
dc.descriptionWilson, S.T., Lok, B.M., Messina, C.A., Cannan, T.R., Flanigen, E.M., Aluminophosphate molecular sieves: A new class of microporous crystalline inor ganic solids (1982) J. Am. Chem. Soc., 104, pp. 1146-1147
dc.descriptionLok, B.M., Messina, C.A., Patton, R.L., Gajek, R.T., Cannan, T.R., Flanigen, E.M., Silicoaluminophosphate molecular sieves: Another new class of microporous crystalline inorganic solids (1984) J. Am. Chem. Soc., 106, pp. 6092-6093
dc.description(2004) International Zeolite Association Website, , www.iza-online.org, October
dc.descriptionZecchina, A., Lamberti, C., Bordiga, S., Surface acidity and basicity: General concepts (1998) Catal. Today, 41, pp. 169-177
dc.descriptionHartmann, M., Kevan, L., Substitution of transition metal ions into aluminophosphates and silicoaluminophosphates: Characterization and relation to catalysis (2002) Res. Chem. Intermed., 28, pp. 625-695
dc.descriptionFrache, A., Gianotti, E., Marchese, L., Spectroscopic characterisation of microporous aluminophosphate materials with potential application in environmental catalysis (2003) Catal Today, 77, pp. 371-384
dc.descriptionWilson, S.T., Barger, P.T., Reynolds, T.M., (1999), U.S. Patent No. 5912393Flanigen, E.M., Grosse, R.W., Molecular sieve zeolites I (1971) Adv. Chem., 101, p. 76
dc.descriptionWilson, S.T., Phosphate-based molecular sieves: Novel synthetic approaches to new structures and compositions (2001) Stud. Surf. Sci. Catal., 37, pp. 229-260
dc.descriptionPauling, L., The sizes of ions and the structure of ionic crystals (1960) The Nature of the Chemical Bond, pp. 332-400. , Ithaca, CA: Cornell Univ. Press. 2nd ed
dc.descriptionPastore, H.O., A lógica da substituição isomórfica em peneiras moleculares (1996) Quím. Nova., 19, pp. 372-376
dc.descriptionCorà, F., Catlow, C.R.A., Ionicity and framework stability of crystalline aluminophosphates (2001) J. Phys. Chem. B, 105, pp. 10278-10281
dc.descriptionGreenwood, N.N., Earnshaw, A., (1989) Chemistry of the Elements, , Singapore: Maxwell Macmillan Int. Ed
dc.descriptionChen, J., Thomas, J.M., Wright, P.A., Silicoaluminophosphate mumber-18 (SAPO-18) - A new microporous solid acid catalyst (1994) Catal. Lett., 28, pp. 241-248
dc.descriptionChen, J., Wright, P.A., Thomas, J.M., Natara Jan, S., Marchese, L., SAPO-18 catalysts and their Brönsted acid sites (1994) J. Phys. Chem., 98, pp. 10216-10224
dc.descriptionStöcker, M., Methanol-to-hydrocarbons: Catalytic materials and their behavior (1999) Micropor. Mesopor. Mater., 29, pp. 3-48
dc.descriptionZhu, Z.D., Hartmann, M., Kevan, L., Catalytic conversion of methanol-to-olefins on SAPO-n (n = 11, 34, and 35), CrAPSO-n, and Cr-SAPO-n molecular sieves (2000) Chem. Mater., 12, pp. 2781-2787
dc.descriptionMartens, J.A., Grobet, P.J., Jacobs, P.A., Catalytic activity and Si, Al, P ordering in microporous silicoaluminophosphates of the SAPO-5, SAPO-11, and SAPO-37 type (1990) J. Catal., 126, pp. 299-305
dc.descriptionSu, B.L., Lamy, A., Dzwigaj, S., Barthomeuf, D., Oxidizing and reducing properties of SAPO-37 molecular-sieve -comparison with acidity and catalysis (1991) Appl. Catal., 75, pp. 311-320
dc.descriptionWang, L.J., Guo, C.W., Yan, S.R., Huang, X.D., Li, Q.Z., High-silica SAPO-5 with preferred orientation: Synthesis, characterization and catalytic applications (2003) Micropor. Mesopor. Mater., 64, p. 63
dc.descriptionMarchese, L., Frache, A., Gatti, G., Coluccia, S., Lisi, L., Acid SAPO-34 catalysts for oxidative dehydrogenation of ethane (2002) J. Catal., 208, pp. 479-484
dc.descriptionLopez, C.M., Rodriguez, K., Mendez, B., Montesa, A., Machado, F.J., Influence of the silicon content upon the acidity and catalytic properties of AFI-like catalysts (2000) Appl. Catal. A, 197, pp. 131-137
dc.descriptionSastre, G., Lewis, D.W., Catlow, C.R.A., Structure and stability of silica species in SAPO molecular sieves (1996) J. Phys. Chem., 100, pp. 6722-6730
dc.descriptionBarthomeuf, D., Topological model for the compared acidity of SAPOs and SiAl zeolites (1994) Zeolites, 14, pp. 394-401
dc.descriptionBarthomeuf, D., Topology and maximum content of isolated species (Al, Ga, Fe, B, Si,...) in a zeolitic framework. An approach to acid catalysis (1993) J. Phys. Chem., 97, pp. 10092-10096
dc.descriptionSastre, G., Lewis, D.W., Catlow, C.R.A., Modeling of silicon substitution in SAPO-5 and SAPO-34 molecular sieves (1997) J. Phys. Chem., 101, pp. 5249-5262
dc.descriptionVomscheid, R., Briend, M., Peltre, M.J., Man, P.P., Barthomeuf, D., The role of the template in directing the Si distibution in SAPO zeolites (1994) J. Phys. Chem., 98, pp. 9614-9618
dc.descriptionSastre, G., Lewis, D.W., Catlow, C.R.A., Mechanism of silicon incorporation in aluminophosphate molecular sieves (1997) J. Mol. Catal. A, 119, pp. 349-356
dc.descriptionColuccia, S., Marchese, L., Martra, G., Characterization of microporous and mesoporous materials by the adsorption of molecular probes: FTIR and UV-Vis studies (1999) Micropor. Mesopor. Mater., 30, pp. 43-56
dc.descriptionKnözinger, H., Huber, S., IR spectroscopy of small and weakly interacting molecular probes for acidic and basic zeolites (1998) J. Chem. Soc. Faraday Trans., 94, pp. 2047-2059
dc.descriptionHadjiivanov, K.I., Vayssilov, G.N., Characterization of oxide surfaces and zeolites by carbon monoxide as IR probe molecule (2002) Adv. Catal., 47, pp. 307-511
dc.descriptionSastre, G., Lewis, D.W., Modelling of Brönsted acidity in AFI and CHA zeotypes (1998) J. Chem. Soc. Faraday Trans., 94, pp. 3049-3058
dc.descriptionSauer, J., Schröder, K.P., Termath, V., Comparing the acidities of microporous aluminosilicate and silico-aluminophosphate catalysts: A combined quantum mechanics-interatomic potential function study (1998) Collect. Czech. Chem. Commun., 63, pp. 1394-1408
dc.descriptionElanany, M., Koyama, M., Kubo, M., Selvam, P., Miyamoto, A., Periodic density functional investigation of Brønsted acidity in isomorphously substituted chabazite and ALPO-34 molecular sieves (2004) Micropor. Mesopor. Mater., 71, pp. 51-56
dc.descriptionSastre, G., Lewis, D.W., Corma, A., The role of the electrostatic potential, electric field and electric field gradient on the acidity of AFT and CHA zeo-type (2000) Phys. Chem. Chem. Phys., 2, pp. 177-185
dc.descriptionLewis, D.W., Sastre, G., Rationalization of the IR stretching frequencies of Brønsted acid centres in microporous solids (1999) Chem. Commun., pp. 349-350
dc.descriptionMorterra, C., Magnacca, G., A case study: Surface chemistry and surface structure of catalytic aluminas, as studied by vibrational spectroscopy of adsorbed species (1996) Catal. Today, 27, pp. 497-532
dc.descriptionMa, M., Ojo, A.F., Karim, K., Hunger, M., Dwyer, J., FTIR study of weak hydrogen bonding of Brönsted hydroxyls in zeolites and aluminophosphates (1994) J. Phys. Chem., 98, pp. 3619-3623
dc.descriptionOnida, B., Gabelica, Z., Lourenço, J.P., Ribeiro, M.F., Garrone, E., Spectroscopic characterization of the hydroxyl groups in SAPO-40. 2. Interaction with CO and N2 (1997) J. Phys. Chem. B, 101, pp. 9244-9249
dc.descriptionSmith, L., Cheetham, A.K., Marchese, L., Gianotti, E., Thomas, J.M., A quantitative description of the active sites in the dehydrated acid catalyst HSAPO34 for the conversion of methanol to olefins (1996) Catal. Lett., 41, pp. 13-16
dc.descriptionGianotti, E., Frache, A., Coluccia, S., Thomas, J.M., Maschmeyer, T., Marchese, L., The identity of titanium centres in microporous aluminophosphates compared with Ti-MCM-41 mesoporous catalyst and titanosilsesquioxane dimer molecular complex: A spectroscopic study (2003) J. Mol. Catal. A, 204-205, pp. 483-489
dc.descriptionJappar, N., Tanaka, Y., Nakata, S., Tatsumi, T., Synthesis and characterization of a new titanium silicoaluminophosphate: TAPSO-37 (1998) Micropor. Mesopor. Mater., 23, pp. 169-178
dc.descriptionBarker, C.M., Gleeson, D., Kaltsoyaqnnis, N., Cra, C., Sankar, G., Thomas, J.M., On the structure and coordination of the oxygen-donating species in Ti-MCM-41/TBHP oxidation catalysts: A density functional theory and EX-AFS study (2002) Phys. Chem. Chem. Phys., 4, pp. 1228-1240
dc.descriptionShetti, V.N., Manikandan, P., Srinivas, D., Ratnasamy, P., Reactive oxygen species in epoxidation reactions over ti-tanosilicate molecular sieves (2003) J. Catal., 216, pp. 461-467
dc.descriptionEscalante, D., Giraldo, L., Pinto, M., Pfaff, C., Sazo, V., A study of the feasibility of incorporation of chromium into the molecular sieve framework: The transformation of 1-butene over Cr-silicoaluminophosphate molecular sieves (1997) J. Catal., 169, pp. 176-187
dc.descriptionChen, J.D., Sheldon, R.A., Selective oxidation of hydrocarbons with O2 over chromium aluminophosphate-5 molecular-sieve (1995) J. Catal., 153, pp. 1-8
dc.descriptionThomas, J.M., Raja, R., Sankar, G., Bell, R.G., Molecular sieve catalysts for the regioselective and shape-selective oxy-functionalization of alkanes in air (2001) Acc. Chem. Res., 34, pp. 191-200
dc.descriptionModén, B., Oliviero, L., Dakka, J., Santiesteban, J.G., Iglesia, E., Structural and functional characterization of redox Mn and Co sites in AlPO materials and their role in alkane oxidation catalysis (2004) J. Phys. Chem. B, 108, pp. 5552-5563
dc.descriptionHöchtl, M., Jentys, A., Vinek, H., Isomerization of 1-pentene over SAPO, CoAPO (AEL, AFI) molecular sieves and HZSM-5 (2001) Appl. Catal. A, 207, pp. 397-405
dc.descriptionChen, J.S., Thomas, J.M., MAPO-18 (M-Mg,Zn,Co) - A new family of catalysts for the conversion of methanol to light olefins (1994) J. Chem. Soc. Chem. Commun., pp. 603-604
dc.descriptionFranklin, I.L., Beale, A.M., Sankar, G., On the activity, longevity and recyclability of Mn(II) and Co(II) substituted AlPO-18 catalysts for the conversion of methanol to light olefins (2003) Catal. Today, 81, pp. 623-629
dc.descriptionThomas, J.M., Greaves, G.N., Sankar, G., Wright, P.A., Chen, J., On the nature of the active site in a CoAPO-18 solid acid catalyst (1994) Angew. Chem. Int. Ed. Engl., 33, pp. 1871-1873
dc.descriptionMarchese, L., Chen, J.S., Thomas, J.M., Coluccia, S., Zecchina, A., Brönsted, Lewis and redox centres on CoAPO-18 catalysts. Vibrational modes of adsorbed water (1994) J. Phys. Chem., 98, pp. 13350-13356
dc.descriptionMarchese, L., Martra, G., Damilano, N., Coluccia, S., Thomas, J.M., Elucidating the nature of the cobalt centres in CoAPO-18 acid catalysts (1996) Stud. Surf. Sci. Catal., 101, pp. 861-870
dc.descriptionGianotti, E., Marchese, L., Martra, G., Coluccia, S., The interaction of NO with Co2+/Co3+ redox centres in CoA-POs catalysts: FTIR and UV-Vis investigations (1999) Catal. Today, 54, pp. 547-552
dc.descriptionLourenço, J.P., Ribeiro, M.F., Ribeiro, F.R., Rocha, J., Gabelica, Z., Generation of acid sites by incorporation of cobalt in the AFR structure (1997) Stud. Surf. Sci. Catal., 105, pp. 1973-1980
dc.descriptionKang, M., Methanol conversion on metal-incorporated SAPO-34s (MeAPSO-34s) (2000) J. Mol. Catal. A, 160, pp. 437-444
dc.descriptionKang, M., Effect of cobalt incorporated into the framework of SAPO-34 (CoAPSO-34s) on NO removal (2000) J. Mol. Catal. A, 161, pp. 115-123
dc.descriptionBriend, M., Lamy, A., Peltre, M.J., Man, P.P., Barthomeuf, D., Thermal-stability of tetrapropylammonium (TPA) and tetramethylammonium (TMA) cations occluded in SAPO-37 molecular-sieves (1993) Zeolites, 13, pp. 201-211
dc.descriptionLourenço, J.P., Ribeiro, M.F., Ribeiro, F.R., Rocha, J., Gabelica, Z., Study of catalytic properties of SAPO-40 (1994) Stud. Surf. Sci. Catal., 84, pp. 867-874
dc.descriptionWilson, S.T., King, L., (1988), European Patent No. 293938Sierra, L., Patarin, J., Derouche, C., Gies, H., Guth, J.L., Novel molecularsieves of the aluminophosphate family-ALPO4 and substituted derivatives with the LTA, FAU and APR structure-types (1994) Stud. Surf. Sci. Catal., 84 C, pp. 2237-2244
dc.descriptionMerrouche, A., Patarin, J., Kessler, H., Soulard, M., Delmotte, L., Synthesis and characterization of cloverite -a novel gallophosphate molecular-sieve with 3-dimensional 20-membered ring channels (1992) Zeolites, 12, pp. 226-232
dc.descriptionAshtekar, S., Barrie, P.J., Heargreaves, M., Gladden, L.F., An FT-Raman study of the template-framework interaction in ALPO 4-based molecular sieves (1997) Angew. Chem. Int. Ed. Engl., 36, pp. 876-878
dc.descriptionMarchese, L., Frache, A., Gianotti, E., Martra, G., Causà, M., Coluccia, S., ALPO-34 and SAPO-34 synthesized by using morpholine as templating agent. FTIR and FT Raman studies of the host-guest and guest-guest interactions within the zeolitic framework (1999) Micropor. Mesopor. Mater., 30, pp. 145-153
dc.descriptionMartucci, A., Alberti, A., Cruciani, G., Frache, A., Coluccia, S., Marchese, L., Combined single crystal X-ray diffraction and FTIR study of morpholinium-water molecular complexes embedded in a chabasite network (2003) J. Phys. Chem. B., 107, pp. 9655-9661
dc.descriptionGotoh, K., Ishimaru, S., Ikeda, R., Dynamic behaviour of triethylamine molecules adsorbed in aluminophosphate (ALPO4-5) and silicoaluminophosphate (SAPO 4-5) molecular sieves (2000) Phys. Chem. Chem. Phys., 2, pp. 1865-1869
dc.descriptionKnop-Gerrits, P.-P., Toufar, H., Li, X.-Y., Grobet, P., Schoonheydt, R.A., The structure of water in crystalline aluminophosphates: Isolated water and intermolecular clusters probed by Raman spectroscopy, NMR and structural modeling (2000) J. Phys. Chem. A, 104, pp. 2410-2422
dc.descriptionGuth, J.L., Kessler, H., Higel, J.M., Lamblin, J.M., Patarin, J., Zeolite synthesis in the presence of fluoride ions - A comparison with conventional synthesis methods (1989) ACS Symp. Ser., 398, pp. 176-195
dc.descriptionMatijasic, A., Paillaud, J.-L., Patarin, J., Synthesis, characterization and structure determination of Mu-15: A new fluorogallophosphate with fluoride as a specific template of the D4R units (2000) J. Mater. Chem., 10, pp. 1345-1351
dc.descriptionSierra, L., Patarin, J., Guth, J.L., Synthesis of aluminophosphates and derived materials with the ZON structure type (2000) Micropor. Mesopor. Mater., 38, pp. 123-133
dc.descriptionMorris, R.E., Burton, A., Bull, L.M., Zones, S.I., SSZ-51 - A new aluminophosphate zeotype: Synthesis, crystal structure, NMR and dehydration properties (2004) Chem. Mater., 16, pp. 2844-2851
dc.descriptionBriend, M., Vomscheid, R., Peltre, M.J., Man, P.P., Barthomeuf, D., Influence of the choice of the template on the short- And long-term stability of SAPO-34 (1995) J. Phys. Chem., 99, pp. 8270-8276
dc.descriptionWheatley, P.S., Morris, R.E., Cyclam as a structure directing agent in the crystallization of aluminophosphate open framework materials from fluoride media (2002) J. Solid. State Chem., 167, pp. 267-273
dc.descriptionXu, W.Y., Dong, J.X., Li, J.P., Li, J.Q., Wu, F., A novel method for the preparation of zeolite ZSM-5 (1990) J. Chem. Soc. Chem. Commun., pp. 755-756
dc.descriptionZhang, L., Gavalas, G.R., Vaporphase transport synthesis of ZnAPO-34 molecular sieve (1999) Chem. Commun., pp. 97-98
dc.descriptionBandyopadhyay, R., Bandyopadhyay, M., Kubota, Y., Sugi, Y., Synthesis of ALPO4 molecular sieves with AFI and AEL structures by dry gel conversion method and catalytic application of their SAPO counterparts on isopropylation of biphenyl (2002) J. Porous Mater., 9, pp. 83-95
dc.descriptionArafat, A., Jansen, J.C., Ebaid, A.R., Van Bekkum, H., Microwave preparation of zeolite-Y and ZSM-5 (1990) Zeolites, 13, pp. 162-165
dc.descriptionPark, M., Komarneni, S., Rapid synthesis of AlPO4-11 and cloverite by microwave-hydrothermal processing (1998) Micropor. Mesopor. Mater., 20, pp. 39-44
dc.descriptionZhao, J.P., Cundy, C., Dwyer, J., Synthesis of zeolites in a microwave heating environment (1997) Stud. Surf. Sci. Catal., 105, pp. 181-188
dc.descriptionXu, X.C., Yang, W.S., Liu, J., Lin, L.W., Synthesis of a high-permeance NaA zeolite membrane by microwave heating (2000) Adv. Mater., 12, p. 195
dc.descriptionJhung, S.H., Chang, J.-S., Hwang, J.S., Park, S.-E., Selective formation of SAPO-5 and SAPO-34 molecular sieves with microwave irradiation and hydrothermal heating (2003) Micropor. Mesopor. Mater., 64, pp. 33-39
dc.descriptionGirnus, I., Jancke, K., Vetter, R., Richter-Mendau, J., Caro, J., Large ALPO4-5 crystals by microwave heating (1995) Zeolites, 15, pp. 33-39
dc.descriptionJhung, S.H., Chang, J.-S., Hwang, Y.K., Park, S.-E., Crystal morphology control of AFI molecular sieves with microwave irradiation (2004) J. Mater. Chem., 14, pp. 280-285
dc.descriptionJhung, S.H., Chang, J.-S., Kim, D.S., Park, S.-E., Effects of silica on the synthesis of AFI molecular sieve in acid and base conditions under microwave irradiation (2004) Micropor. Mesopor. Mater., 71, pp. 135-142
dc.descriptionIwasaki, A., Sano, T., Kodana, T., Kyozumi, Y., Growth behavior of AFI-type crystals (2003) Micropor. Mesopor. Mater., 64, pp. 145-153
dc.descriptionWan, Y., Williams, C.D., Cva, D., Cox, J.J., Systematic studies on the effect of water content on the synthesis, crystallization, conversion and morphology of ALPO4-5 molecular sieve (2000) J. Mater. Chem., 10, pp. 2857-2862
dc.descriptionRakoczy, R.A., Ernest, S., Hartmann, M., Traa, Y., Weitkamp, J., Synthesis of large molecular sieve crystals with the AFI (ALPO 4-5) topology (1999) Catal. Today, 49, pp. 261-266
dc.descriptionSinha, A.K., Sainkar, S., Sivasanker, S., An improved method for the synthesis of the silicoaluminophosphate molecular sieves, SAPO-5, SAPO-11 and SAPO-31 (1999) Micropor. Mesopor. Mater., 31, pp. 321-331
dc.descriptionSeelan, S., Sinha, A.K., Crystal lization and characterization of high-silica silicoaluminophosphate SAPO-5 (2004) J. Mol. Catal. A, 215, pp. 149-152
dc.descriptionDavis, M.E., Montes, C., Hathaway, P.E., Garcés, J.M., Synthesis of aluminophosphates and element-substituted aluminophosphate VPI-5 (1989) Stud. Surf. Sci. Catal., 49 A, pp. 199-206
dc.descriptionDel Val, S., Blasco, T., Sastre, E., Pérez-Pariente, J., Synthesis of SiVPI-5 with enhanced activity in acid-catalysed reactions (1995) J. Chem. Soc. Chem. Commun., pp. 731-732
dc.descriptionFranco, M.J., Mifsud, A., Pérez-Pariente, J., Study of SAPO-5 obtained from surfactant-containing gels: Part 1. Crystallization parameters and mechanisms of Si substitution (1995) Zeolites, 15, pp. 117-123
dc.descriptionHan, X.S., Williams, C.D., Lee, D.F., Round, C.I., Synthesis of high silicon content SAPO-5 using anionic surfactants in a hexagonal/aqueous two-phase media (2002) Chem. Commun., pp. 166-167
dc.descriptionDimitriu, E., Lutic, D., Hulea, V., Dorohoi, D., Azzouz, A., Synthesis optimization of Chabasite-like SAPO-47 in the presence of sec-butylamine (1999) Micropar. Mesopor. Mater., 31, pp. 187-193
dc.descriptionLi, Y., Yu, J., Liu, D., Yan, W., Xu, R., Xu, Y., Design of zeolite frameworks with defined pore geometry through constrained assembly of atoms (2003) Chem. Mater., 15, pp. 2780-2785
dc.descriptionMellot-Drazniecks, C., Girard, S., Férey, G., Novel inorganic frameworks constructed from double-four-ring (D4R) units: Computational design, structures, and lattice energies of silicate, aluminophosphate, and gallophosphate candidates (2002) J. Am. Chem. Soc., 124, pp. 15326-15335
dc.descriptionLewis, D.W., Willock, D.J., Catlow, C., Richard, A., Thomas, J.M., Hutchings, G.J., De novo design of structure-directing agents for the synthesis of microporous solids (1996) Nature, 382, pp. 604-606
dc.descriptionThomas, J.M., Design, synthesis, and in situ characterization of new solid catalysts (1999) Angew. Chem. Int. Ed., 38, pp. 3588-3628
dc.descriptionAkporiaye, D.E., Dabi, J.M., Karlsson, A., Wendelbo, P., Combinatorial approach to the hydrothermal synthesis of zeolites (1998) Angew. Chem. Int. Ed. Engl., 37, pp. 609-611
dc.descriptionKlein, J., Lehmann, C.W., Schmidt, H.-W., Maier, W.F., Combinatorial material libraries on the microgram scale with an example of hydrothermal synthesis (1998) Angew. Chem. Int. Ed. Engl., 37, pp. 3369-3372
dc.descriptionDeleted in proofZhang, L., Yao, J., Zeng, C., Xu, N., Combinatorial synthesis of SAPO-34 via vapor phase transport (2003) Chem. Commun., pp. 2232-2233
dc.descriptionSong, Y., Yu, J., Li, G., Li, Y., Wang, Y., Xu, R., Combinatorial approach for the hydrothermal synthesis of open-framework zinc phosphates (2002) Chem. Commun., pp. 1720-1721
dc.descriptionHuang, Y., Demko, B.A., Kirby, C.W., Investigation of the evolution of intermediate phases of ALPO 4-18 molecular sieve synthesis (2003) Chem. Mater., 15, pp. 2437-2444
dc.descriptionVenkatathri, N., Hedge, S.G., Ramaswamy, V., Sivasanker, S., Isolation and characterization of a novel lamellar-type aluminophosphate, ALPO-L, a common precursor for ALPO4 molecular sieves (1998) Micropor. Mesopor. Mater., 23, pp. 277-285
dc.descriptionTan, J., Liu, Z., Bao, X., Liu, X., Han, X., Crystallization and Si incorporation mechanisms of SAPO-34 (2002) Micropor. Mesopor. Mater., 53, pp. 97-108
dc.descriptionVistad, Ø., Hansen, E.W., Akporiaye, D.E., Lillerud, K.P., Multinuclear NMR analysis of SAPO-34 gels in the presence and absence of HF: The initial gel (1999) J. Phys. Chem. A, 103, pp. 2540-2552
dc.descriptionVistad, Ø., Akporiaye, D.E., Lillerud, Kp., Identification of a key precursor phase for synthesis of SAPO-34 and kinetics of formation investigated by in situ X-ray diffraction (2001) J. Phys. Chem., 105, pp. 12437-12447
dc.descriptionVistad, Ø., Akporiaye, D.E., Taulelle, F., Lillerud, Kp., In situ NMR of SAPO-34 crystallization (2003) Chem. Mater., 15, pp. 1639-1649
dc.descriptionYang, Y.M., Walawalkar, G., Pinkas, J., Roesky, H.W., Schmidt, H.-G., Molecular aluminophosphonate: Model compound for the isoelectronic double-six-ring (D6R) secondary building unit of zeolites (1998) Angew. Chem. Int. Ed., 37, pp. 96-98
dc.descriptionFujdala, K.L., Tilley, T.D., Thermolytic transformation of tris(alkoxy) siloxychromium(IV) single-source molecular precursors to catalytic chromiasilica materials (2001) Chem. Mater., 13, pp. 1817-1827
dc.descriptionLugmair, C.G., Tilley, T.D., Rheingold, A.L., Di(tert-butyl)phosphate complexes of aluminum: Precursors to aluminum phosphate xerogels and thin films (1999) Chem. Mater., 11, pp. 1615-1620
dc.descriptionTerry, K.W., Lugmair, C.G., Tilley, T.D., Tris(tert-butoxy)siloxy complexes as single-source precursors to homogeneous zirconia- And hafnia-silica materials. An alternative to the sol-gel method (1997) J. Am. Chem. Soc., 119, pp. 9745-9756
dc.descriptionFujdala, K.L., Tilley, T.D., An efficient, single-source molecular precursor to silicoaluminophosphates (2001) J. Am. Chem. Soc., 123, pp. 10133-10134
dc.descriptionTiemann, M., Fröba, M., Mesoporous aluminophosphates from a single source pecursor (2002) Chem. Commun., pp. 406-407
dc.descriptionCheng, S., Tzeng, J.-N., Hsu, B.-Y., Synthesis and caracterization of a novel layered aluminophosphate of kanemite-like structure (1997) Chem. Mater., 9, pp. 1788-1796
dc.descriptionAlbuquerque, A., Coluccia, S., Marchese, L., Pastore, H.O., Synthesis of SAPO-34 from the lamellar ALPO-kanemite (2004) Stud. Surf. Sci. Catal., 154, pp. 966-971
dc.descriptionMartins, G.A.V., Pastore, H.O., The synthesis of SAPO-44 from lamellar ALPO-kanemite (2005) Stud. Surf. Sci. Catal., , In press
dc.descriptionDeleted in proofDeleted in proofBeck, J.S., Vartuli, J.C., Roth, W.J., Leonowicz, M.E., Kresge, C.T., A new family of mesoporous molecular sieves prepared with liquid crystal templates (1992) J. Am. Chem. Soc., 114, pp. 10834-10843
dc.descriptionSayari, A., Karra, V.R., Reddy, J.S., Moudrakovski, I.L., Synthesis of mesostructured lamellar aluminophosphates (1996) Chem. Commun., pp. 411-412
dc.descriptionChakraborty, B., Pulikottil, A.C., Das, S., Viswanathan, B., Synthesis and characterization of mesoporous SAPO (1997) Chem. Commun., pp. 911-912
dc.descriptionKimura, T., Sugahara, Y., Kuroda, K., Synthesis of a hexagonal mesostructured aluminophosphate (1997) Chem. Lett., 26, pp. 983-984
dc.descriptionFeng, P., Xia, Y., Feng, J., Bu, X., Stucky, G.D., Synthesis and characterization of mesostructured aluminophosphates using the fluoride route (1997) Chem. Commun., pp. 949-950
dc.descriptionCabrera, S., Haskouri, J.E., Guillen, C., Beltrán-Porter, A., Beltrán-Porter, D., Tuning the pore size from micro-to mesoporous in thermally stable aluminophosphates (1999) Chem. Commun., pp. 333-334
dc.descriptionChakraborty, B., Pulikottil, A.C., Viswanathan, B., Physico-chemical and MAS NMR characterization of mesoporous SAPOs (1998) Appl. Catal. A, 167, pp. 173-181
dc.descriptionPerez, O.J.O., Borade, B.B., Clearfield, A., Synthesis of a mesoporous aluminophosphate (1998) J. Mol. Struct., 470, pp. 221-228
dc.descriptionZhao, D., Luan, Z., Kevan, L., Synthesis of thermally stable mesoporous hexagonal aluminophosphate molecular sieves (1997) Chem. Commun., pp. 1009-1010
dc.descriptionLuan, Z., Zhao, D., He, H., Klinowski, J., Tubular aluminophosphate mesoporous material containing framework silicon, vanadium and manganese (1998) Stud. Surf. Sci. Catal., 117, pp. 103-110
dc.descriptionKhimiyak, Y.Z., Klinowski, J., Synthesis of new mesostructured aluniinophosphates (1998) J. Chem. Soc. Faraday Trans., 94, pp. 2241-2247
dc.descriptionKhimiyak, Y.Z., Klinowski, J., Synthesis of mesostructured aluminophosphate using cationic templating (2002) Phys. Chem. Chem. Phys., 2, pp. 5275-5285
dc.descriptionKapoor, M.P., Raj, A., Synthesis of mesoporous hexagonal titanium aluminophosphate molecular sieves and their catalytic applications (2000) Appl. Catal. A, 203, pp. 311-319
dc.descriptionZhao, X.S., Lu, G.Q., Aluminophosphate-based mesoporous molecular sieves: Synthesis and characterization of TAPOs (2001) Micropor. Mesopor. Mater., 44-45, pp. 185-194
dc.descriptionMohapatra, S.K., Hussain, F., Selvam, P., Titanium substituted hexagonal mesoporous catalysts for the oxidation of phenols at room remperature (2001) Catal. Commun., 4, pp. 57-62
dc.descriptionMasson, N.C., Pastore, H.O., Synthesis and characterization of aluminophosphate mesoporous material containing framework magnesium (2001) Micropor. Mesopor. Mater., 44-45, pp. 173-181
dc.descriptionKhimiyak, Y.Z., Klinowski, J., Incorporation of magnesium in mesostructured and mesoporous aluminophosphate (2001) Phys. Chem. Chem. Phys., 3, pp. 1544-1551
dc.descriptionOliveira, E.C., Pastore, H.O., Synthesis of mesoporous silicoaluminophosphates (SAPO) (2002) Stud. Surf. Sci. Catal., 141, pp. 299-304
dc.descriptionDeleted in proofWang, L., Tian, B., Fan, J., Liu, X., Yang, H., Block copolymer templating synthesis of ordered large-pore stable mesoporous aluminophosphates and Fe-aluminophosphate based on an "acid-base air" route (2004) Micropor. Mesopor. Mater., 67, pp. 123-133
dc.descriptionKhimiyak, Y.Z., Klinowski, J., Synthesis and characterization of mesoporous aluminophosphates containing boron (2002) J. Mater. Chem., 12, pp. 1079-1085
dc.descriptionGianotti, E., Oliveira, E.C., Coluccia, S., Pastore, H.O., Marchese, L., Synthesis and surface properties of Ti-containing mesoporous aluminophosphates. A comparison with Ti-grafted mesoporous Silica Ti-MCM-41 (2003) Inorg. Chim. Acta, 349, pp. 259-264
dc.descriptionTiemann, M., Fröba, M., Mesostructured aluminophosphates synthesized with supramolecular structure directors (2001) Chem. Mater., 13, pp. 3211-3217
dc.descriptionGianotti, E., Oliveira, E.C., Dellarocca, V., Coluccia, S., Pastore, H.O., Marchese, L., Meso-ALPO prepared by thermal decomposition of the organic-inorganic composite. A FTIR spectroscopic study (2002) Stud. Surf. Sci. Catal., 141, pp. 417-424
dc.descriptionGianotti, E., Oliveira, E.C., Dellarocca, V., Coluccia, S., Pastore, H.O., Marchese, L., Acidity of mesoporous aluminophosphates and Silicas MCM-41. A combined FTIR and UV-Vis-NIR study (2002) Stud. Surf. Sci. Catal., 142 B, pp. 1419-1426
dc.descriptionGianotti, E., Oliveira, E.C., Coluccia, S., Pastore, H.O., Marchese, L., The surface acidity of mesoporous silicoaluminophosphates. A FTIR study (2004) Stud. Surf. Sci. Catal., 154, pp. 1498-1504
dc.descriptionMarchese, L., Chen, J.S., Wright, P.A., Thomas, J.M., Formation of hydronium at the Broensted site in SAPO-34 catalysts (1993) J. Phys. Chem., 97, pp. 8109-8112
dc.descriptionMarchese, L., Gianotti, E., Dellarocca, V., Maschmeyer, T., Rey, F., Structure-functionality relationships of grafted Ti-MCM41 silicas. Spectroscopic and catalytic studies (1999) Phys. Chem. Chem. Phys., 1, pp. 585-592
dc.descriptionGianotti, E., Dellarocca, V., Marchese, L., Martra, G., Coluccia, S., Maschmeyer, T., NH3 adsorption on MCM-41 and Ti-grafted MCM-41. FTIR, DR UV-Vis-NIR and photoluminescence studies (2002) Phys. Chem. Chem. Phys., 4, pp. 6109-6115
dc.descriptionKatovic, A., Giordano, G., Bonelli, B., Onida, B., Garrone, G., Preparation and characterization of mesoporous molecular sieves containing Al, Fe or Zn (2001) Micropor. Mesopor. Mater., 44-45, pp. 275-281
dc.descriptionOnida, B., Borello, L., Bonelli, B., Geobaldo, F., Garrone, E., IR study of the acidity of ITQ-2, an "all-surface" zeolitic system (2003) J. Catal., 214, pp. 191-199
dc.descriptionYanagisawa, T., Shimizu, T., Kuroda, K., Kato, C., Trimethylsilyl derivatives of alkyltrimethylammonium-kanemite complexes and their conversion to microporous SiO2 materials (1990) Bull. Chem. Soc. Jpn., 63, pp. 1535-1537
dc.descriptionPinnavaia, T.J., Kim, S.-S., Zhang, Z., Liu, Y., Mesoporous metal oxides with improved atomic ordering in the pore walls (2004) Stud. Surf. Sci. Catal., 154, pp. 14-19
dc.descriptionCaro, J., Zeolites and mesoporous materials as advanced functional material (2004) Stud. Surf. Sci. Catal., 154, pp. 82-97
dc.descriptionWeitß, Ö., Loerke, J., Wüstefeld, U., Marlow, F., Schüth, F., Host-guest interactions and laser activity in ALPO-5/laser dye composites (2002) J. Solid State Chem., 167, pp. 302-309
dc.descriptionRanjit, K.T., Kevan, L., Photoinduced charge separation of pyrene in chromium containing silicoaluminophosphate (SAPO-5) microporous materials at room temperature (2003) J. Phys. Chem. B, 107, pp. 2610-2617
dc.descriptionLi, Z.M., Zhai, J.P., Liu, H.J., Li, I.L., Chang, C.T., Synthesis of 4 Åsingle-walled carbon nanotubes in catalytic Si-Substituted ALPO-5 molecular sives (2004) Appl. Phys. Lett., 85, pp. 1253-1255
dc.languageen
dc.publisher
dc.relationAnnual Review of Materials Research
dc.rightsfechado
dc.sourceScopus
dc.titlePorous Aluminophosphates: From Molecular Sieves To Designed Acid Catalysts
dc.typeArtículos de revistas


Este ítem pertenece a la siguiente institución