Synthesis and Structure of a 22 x 12 x 12 Extra-Large Pore Zeolite ITQ-56 Determined by 3D Electron Diffraction

Synthesis and Structure of a 22 x 12 x 12 Extra-Large Pore Zeolite ITQ-56 Determined by 3D Electron Diffraction

A multidimensional extra-large pore germanosilicate, denoted ITQ-56, has been synthesized by using modified memantine as an organic structure-directing agent. ITQ-56 crystallizes as plate-like nanocrystals. Its structure was determined by 3D electron diffraction/MicroED. The structure of ITQ-56 cont...

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Veröffentlicht in:Journal of the American Chemical Society 2021-06, Vol.143 (23), p.8713-8719
Hauptverfasser: Kapaca, Elina, Jiang, Jiuxing, Cho, Jung, Jorda, Jose L., Diaz-Cabanas, Maria J., Zou, Xiaodong, Corma, Avelino, Willhammar, Tom
Format: Artikel
Sprache:eng
Schlagworte:
Chemical structure
Chemistry
Chemistry, Multidisciplinary
Crystal structure
Crystals
Diffraction
Physical Sciences
Science & Technology
Zeolites
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Zusammenfassung:A multidimensional extra-large pore germanosilicate, denoted ITQ-56, has been synthesized by using modified memantine as an organic structure-directing agent. ITQ-56 crystallizes as plate-like nanocrystals. Its structure was determined by 3D electron diffraction/MicroED. The structure of ITQ-56 contains extra-large 22-ring channels intersecting with straight 12-ring channels. ITQ-56 is the first zeolite with 22-ring pores, which is a result of ordered vacancies of double 4-ring (d4r) units in a fully connected zeolite framework. The framework density is as low as 12.4 T atoms/1000 angstrom(3). The discovery of the ITQ-56 structure not only fills the missing member of extra-large pore zeolite with 22-ring channels but also creates a new approach of making extra-large pore zeolites by introducing ordered vacancies in zeolite frameworks.
ISSN:0002-7863
1520-5126
1520-5126
DOI:10.1021/jacs.1c02654