NA K, CHOI M, PARK W, et al. Pillared MFI zeolite nanosheets of a single-unit-cell thickness[J]. J Am Chem Soc, 2010, 132(12): 4169-4177.
[2]
OGURA M, INOUE K, YAMAGUCHI T. A mechanistic study on the synthesis of MCM-22 from SBA-15 by dry gel conversion to form a micro-and mesoporous composite[J]. Catal Today, 2011, 168(1): 118-123.
[3]
SALIMIJAZI H, HOSSEINI M, MOSTAGHIMI J, et al. Plasma sprayed coating using mullite and mixed alumina/Silica powders[J]. J Therm Spray Technol, 2012, 21(5): 825-830.
[4]
QIAN X F, LI B, HU Y Y, et al. Exploring Meso-micro porous composite molecular sieves with coreshell structures[J]. Chem Eur J, 2012, 18(3): 931-939.
[5]
HUSSAIN M, SONG S K, IHM S K. Synthesis of hydrothermally stable MCM-41 by the seed crystallization and its application as a catalyst support for hydrodesulfurization[J]. Fuel, 2013, 106: 787-792.
[6]
ZHOU L, YANG X, LI P, et al. Synthesis of NaA/X composite zeolites in hydrothermal reaction system[J]. J Chin Ceram Soc, 2013, 41(6): 842-847.
[7]
SHIN W, DO T, NAGAI Y, et al. Synthesis of MCM-41 with zeolite-p from natural clinoptilolite for silica-alumina source under hydrothermal conditions in alkaline media[J]. Int J Soc Mat Eng Res, 2011, 18(1): 1-6.
[8]
CHAL R, GERARDIN C, BULUT M, et al. Overview and industrial assessment of synthesis strategies towards zeolites with mesopores[J]. Chem Catal Chem, 2011, 3(1): 67-81.
[9]
MOLLER K, YILMAZ B, JACUBINAS R M, et al. One-step synthesis of hierarchical zeolite beta via network formation of uniform nanocrystals[J]. J Am Chem Soc, 2011, 133(14): 5284-5295.
[10]
LI P, XIONG G, LIU P, et al. Investigation on the effect of zeolite precursor on the formation processof MCM-41 containing zeolite Y building units [J]. Spectrochim Acta Part A: Mol Biom Spectr, 2013, 107: 218-226.
[11]
LI P, LIU L P, XIONG G. Effect of zeolite precursor on the formation of MCM-41 molecular sieve containing zeolite Y building units[J]. Phys Chem Chem Phys, 2011, 13: 11248-11253.
[12]
KHITEV Y P, KOLYAGIN Y G, IVANOVA I I, et al. Synthesis and catalytic properties of hierarchical micro/mesoporous materials based on FER zeolite[J]. Microp Mesop Mater, 2011, 146: 201-207.
[13]
BONILLA A, BAUDOUIN D, PEREZ-RAMIREZ J. Desilication of ferrierite zeolite for porosity generation and improved effectiveness in polyethylene pyrolysis[J]. J Catal, 2009, 265: 170-180.
[14]
CHO K, RYOO R, ASAHINA S, et al. Mesopore generation by organosilane surfactant during LTA zeolite crystallization, investigated by high-resolution SEM and Monte Carlo simulation[J]. Solid Stat Sci, 2011, 13(4): 750-756.
[15]
YU J L, LI M, TIAN Y, et al. Effect of Si/Al ratio and a secondary hydrothermal treatment on the properties of Al-MSU-SFAU[J]. J Porous Mater, 2013, 20(5): 1387-1393.
[16]
CARLO P, ROBERTO M. Porous materials in catalysis: challenges for mesoporous materials[J]. Chem Soc Rev, 2013, 42: 3956-3976.
ZIMOWSKA M, PALKOVA H, MADEJOVA J. Laponite derived porous clay heterostructures: III. The effect of alumination [J]. Microp Mesop Mater, 2013, 175: 67-75.
[19]
YANG H, DENG Y, DU C, et al. Novel synthesis of ordered mesoporous materials Al-MCM-41 from bentonite [J]. Appl Clay Sci, 2010, 47(3): 351-355.
JIANG T S, CHEN Y F, ZHAO Q, et al. J Chin Ceram Soc, 2006, 34(7):805-809.
[22]
JIANG T S, ZHOU X P, LI Y H, et al. Characterization of Zr-based MCM-41 mesoporous molecular sieves obtained by microwave irradiation or hydrothermal method [J]. Inorg Mater, 2011, 47(3): 296-302.
[23]
ZOU X, WONG K L, THOMAS S, et al. Platinum clusters confined in FAU-LTA hierarchical porous composite with a core-shell structure[J]. Catal Today, 2011, 168(1): 140-146.
[24]
HAN Y, PITUKMANOROM P, ZHAO L, et al. Generalized synthesis of mesoporous shells on zeolite crystals[J]. Small, 2011, 7: 326-332.
[25]
LIU X M, YANG T T, BAI P, et al. Y/MCM-41 composites assembled from nanocrystals[J]. Microp Mesop Mater, 2013, 181: 116-122.
[26]
WANG Y, CUI D M, LI Q Z, et al. Synthesis, characterization and in-uence parameters on the overgrowth of micro/mesoporous Y-zeolite-MCM-41 composite material under acidic conditions[J]. Microp Mesop Mater, 2011, 142: 503-510.
[27]
TANAKA S, FUKUI R, MIYAKE Y. Synthesis of ordered mesoporous silicoalumino phosphates by using LTA zeolite precursors dissolved under acidic conditions [J]. Mater Lett, 2013, 92: 259-262.
[28]
BECK J S, VARTUALI J C, ROTH W J, et al. A new family of mesoporous molecular sieves prepared with liquid crystal templates[J]. Am Chem Soc, 1992, 114: 10834-10843.
[29]
KRESGE C T, LEONOWIEZ M E, ROTH W J, et al. A new family of meso-porous moleular sieves prepared with liquid-crystal mechanism [J]. Nature, 1992, 359: 710-712.
[30]
MEYNEN V, COOL P, VANSANT E F. Verified syntheses of mesoporous materials[J]. Microp Mesop Mater, 2009, 125(3): 170-223.
[31]
KATSUHIKO A, AJAYAN V, YUSUKE Y, et al. Nanoarchitectonics for mesoporous materials[J]. Bull Chem Soc J, 2012, 85: 1-32.
[32]
SUBHASH C L, CHITRAVEL V, AYYAMPERUMAL S, et al. Highly stable aluminosilicates with a dual pore system: Simultaneous formation of meso-and microporosities with zeolitic BEA building units[J]. Microp Mesop Mater, 2010, 133(1/3): 82-90.
[33]
BEATRICE A, ROBERT M. On the shelf life and aging stability of mesoporous silica: insights on thermodynamically stable MCM-41 structure from assessment of 12-Year-Old samples [J]. Chem Mater, 2012, 24: 4450-4458.
[34]
ALOTHMAN Z A. A review: Fundamental aspects of silicate mesoporous materials [J]. Materials, 2012, 5: 2874-2902.
[35]
ALAIN W, LOUIS M. Mesoporous organosilica adsorbents: nanoengineered materials for removal of organic and inorganic pollutants [J]. J Mater Chem, 2010,20: 4478-4511.
[36]
GRANDJEAN A, TOQUER G, ZEMB T. Wall thickness prediction in precipitated precursors of mesoporous materials [J]. J Phys Chem C, 2011, 115(23): 11525-11532.
[37]
MURATA H, ISHITANI H, IWAMOTO M. Highly ordered aluminium-planted mesoporous silica as active catalyst for Biginelli reaction and formyl C-H insertion reaction with diazoester[J]. Phys Chem Chem Phys, 2010, 12(43): 14452-14455.
[38]
SANGCHOOM W, MOKAYA R. High temperature synthesis of exceptionally stable pure silica MCM-41 and stabilisation of calcined mesoporous silicas via refluxing in water[J]. J Mater Chem, 2012, 22(36): 18872-18878.
[39]
SANGCHOOM W, MOKAYA R. High temperature synthesis of exceptionally stable pure silica MCM-41 and stabilisation of calcined mesoporous silicas via refluxing in water[J]. J Mater Chem, 2012, 22(36): 18872-18878.
[40]
TANAKA S, NAKATANI N, OKADA H, et al. Ordered mesoporous aluminosilicates assembled from dissolved LTA precursors[J]. Top Catal, 2010, 53: 224-230.
[41]
NA K, CHOI M, RYOO R. Recent advances in the synthesis of hierarchically nanoporous zeolites[J]. Microp Mesop Mater, 2013, 166: 3-19.
LI F X, LIU H T, YU F, et al. A process for preparing Mesoporous zeolite LTA. CN Patent(in Chinese), 102502685 B. 2013-06-05.
[44]
HARTMAN R L, FOGLER H S. Understanding the dissolution of zeolites[J]. Langmuir, 2007, 23:5477-5484.
[45]
ZHANG L, ZHANG Z Z, WEI J Y, et al. Synthesis of combined micro-mesoporous zeolites and their application to automobile cold start emission control[J]. Acta Phys Chim Sin, 2012, 28(6): 1439-1447.
[46]
FANG X, QIAN F, LI B, et al. Exploring meso-/microporous composite molecular sieves with core-shell structures[J]. Chem Eur J, 2012, 18:931-939.
[47]
CHAMNANKID B, WITOON T, KONGKACHUICHAY P, et al. One-pot synthesis of core-shell silica-alumino silicate composites: Effect of pH and chitosan addition[J]. Coll Surf A: Phys Eng Aspects, 2011, 380: 319-326.
[48]
YIN C Y, TIAN D, XU M, et al. One-step synthesis of hierarchical mesoporous zeolite Beta microspheres from assembly of nanocrystals[J]. J Coll Int Sci, 2013, 397: 108-113.
[49]
LV Y Y, QIAN X F, TU B, et al. Generalized synthesis of core-shell structured nano-zeolite@ordered mesoporous silica composites[J]. Catal Today, 2013, 204: 2-7.
