Synthesis, Characterization, and Structure Solution of CIT-5, a New, High-Silica, Extra-Large-Pore Molecular Sieve
Abstract
The synthesis, structure solution, and characterization of the high-silica molecular sieve CIT-5 (California Institute of Technology Number 5) is described. CIT-5 is synthesized at hydrothermal conditions in the presence of N(16)-methylsparteinium and preferrably lithium cations. The structural solution of CIT-5 shows that it contains one-dimensional pores circumscribed by 14 tetrahedral atoms (14 MR). Rietveld refinement of the synchrotron X-ray powder data gives a symmetry and space group assignment for the structure of Pmn2_1 (no. 31) with refined unit cell parameters of a = 13.6738(8) Å, b = 5.0216(3) Å, and c = 25.4883(7) Å (V = 1750.1 Å^3). Electron diffraction and transmission electron microscopy confirm the space group and the topology of the structure viewed along the [010] direction. Solid-state ^(29)Si NMR spectroscopy results are consistent with the space group assignment. The thermal/hydrothermal stability of CIT-5 compares well to that of other large- and extra-large-pore, high-silica molecular sieves. The acid form of CIT-5 is able to perform hydrocarbon reactions such as cracking and alkylation and shows behaviors that are different from other zeolites.
Additional Information
© 1998 American Chemical Society. Received: May 7, 1998; In Final Form: June 23, 1998. Publication Date (Web): August 21, 1998. We gratefully acknowledge Dr. John Higgins of Air Products and Chemicals Inc. and Dr. D. E. Cox for their assistance in collecting the synchrotron powder XRD data. The data were collected at the X7A beamline at the National Synchrotron Light Source at Brookhaven National Laboratory (Upton, NY), which is supported by the Department of Energy, Division of Material Science and Division of Chemical Sciences. Dr. Chuck Kibby of Chevron is thanked for the collection of argon isotherms, Dr. Ronald C. Medrud of Chevron is thanked for synchrotron powder XRD data collection, and Drs. Tom Harris and Bowman Lee also of Chevron are thanked for the experimental hydrocracking and cracking data. M.T. and M.L. acknowledge support from the David and Lucile Packard Foundation. P.W. thanks Air Products and Chemicals for financial support. Additional financial support for this work was provided by Chevron.Additional details
- Eprint ID
- 83385
- Resolver ID
- CaltechAUTHORS:20171121-081127036
- Department of Energy (DOE)
- David and Lucile Packard Foundation
- Air Products and Chemicals Inc.
- Chevron
- Created
-
2017-11-21Created from EPrint's datestamp field
- Updated
-
2021-11-15Created from EPrint's last_modified field