Synthesis of pillared MCM-36 zeolites with tetramethylammonium silicate as pillaring reagent

ZHANG Jun-tao; QIU Li-min; LIANG Sheng-rong; SU Tong; DING Li-qin

Volume 42 Issue 07

Jul. 2014

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Article Navigation > Journal of Fuel Chemistry and Technology > 2014 > 42(07): 858-864

ZHANG Jun-tao, QIU Li-min, LIANG Sheng-rong, SU Tong, DING Li-qin. Synthesis of pillared MCM-36 zeolites with tetramethylammonium silicate as pillaring reagent[J]. Journal of Fuel Chemistry and Technology, 2014, 42(07): 858-864.

Citation:

ZHANG Jun-tao, QIU Li-min, LIANG Sheng-rong, SU Tong, DING Li-qin. Synthesis of pillared MCM-36 zeolites with tetramethylammonium silicate as pillaring reagent[J]. Journal of Fuel Chemistry and Technology, 2014, 42(07): 858-864.

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Synthesis of pillared MCM-36 zeolites with tetramethylammonium silicate as pillaring reagent

1.
Research Center of Petroleum Processing & Petrochemicals, Xi'an Shiyou University, Xi'an 710065, China;
2.
SINOPEC Beijing Yanshan Company, Beijing 102500, China

Received Date: 2014-01-03
Rev Recd Date: 2014-04-06
Publish Date: 2014-07-30

Abstract

Abstract

Pillared MCM-36 zeolites of MWW type were hydrothermally synthesized by pillaring swollen layered MCM-22P precursor, with tetramethylammonium silicate as the pillaring reagent; the synthesized zeolites were characterized by different physico-chemical techniques such as XRD, N₂ adsorption, TEM, ²⁷Al-MAS, NMR and NH₃-TPD. The results showed that the swollen MCM-22P without drying was successfully pillared in an aqueous solution system; the MCM-36 zeolites with an uniform interlayer distance were then readily obtained. The suitable synthesis conditions for MCM-36 are 80℃ for 24 h for the interlayer swelling of MCM-22P at high pH value (13.5), and then at 100℃ for 24 h for the formation of the intercalating pillars. The MCM-36 zeolites obtained exhibit a typical MWW topology structure, with a composite pore system of both micropores in the crystalline layers and mesopores in the interlayer space, and a large specific surface area (especially external specific surface area). Compared with HMCM-22, the HMCM-36 zeolites show lower acid amount; however, a larger amount of structurally accessible Brnsted acid sites located in the interlayer space of MCM-36 zeolites are exposed due to the formation of mesopores in the interlayer space, which should be favorable to the reaction involving bulky molecules.
- pillared zeolites,
- MCM-36,
- pillaring agent,
- hydrothermal synthesis,
- characterization

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References(26)

References

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