Bridging the Gap between Zeolites and Dense Silica Polymorphs: Formation of All-Silica Zeolite with High Framework Density from Natural Layered Silicate Magadiite

Masakazu Koike; Isabel Grosskreuz; Yusuke Asakura; Ritsuro Miyawaki; Hermann Gies; Hiroaki Wada; Atsushi Shimojima; Bernd Marler; Kazuyuki Kuroda

doi:10.1002/chem.202301942

Bridging the Gap between Zeolites and Dense Silica Polymorphs: Formation of All-Silica Zeolite with High Framework Density from Natural Layered Silicate Magadiite

Masakazu Koike, Isabel Grosskreuz, Yusuke Asakura, Ritsuro Miyawaki, Hermann Gies, Hiroaki Wada, Atsushi Shimojima^*, Bernd Marler, Kazuyuki Kuroda^*

^*この研究の対応する著者

研究成果: Article › 査読

6 被引用数 (Scopus)

抄録

A silica zeolite (RWZ-1) with a very high framework density (FD) was synthesized from highly crystalline natural layered silicate magadiite, bridging the gap between the two research areas of zeolites and dense silica polymorphs. Magadiite was topotactically converted into a 3D framework through two-step heat treatment. The resulting structure had a 1D micropore system of channel-like cavities with an FD of 22.1 Si atoms/1000 Å³. This value is higher than those of all other silica zeolites reported so far, approaching those of silica polymorphs (tridymite (22.6) and α-quartz (26.5)). RWZ-1 is a slight negative thermal expansion material with thermal properties approaching those of dense silica polymorphs. It contributes to the creation of a new field on microporous high-density silica/silicates. Synergistic interactions are expected between the micropores with molecular sieving properties and the dense layer-like building units with different topologies which provide thermal and mechanical stabilities.

本文言語	English
論文番号	e202301942
ジャーナル	Chemistry - A European Journal
巻	29
号	61
DOI	https://doi.org/10.1002/chem.202301942
出版ステータス	Published - 2023 11月 2

ASJC Scopus subject areas

触媒
化学一般
有機化学

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10.1002/chem.202301942

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引用スタイル

Koike, M., Grosskreuz, I., Asakura, Y., Miyawaki, R., Gies, H., Wada, H., Shimojima, A., Marler, B., & Kuroda, K. (2023). Bridging the Gap between Zeolites and Dense Silica Polymorphs: Formation of All-Silica Zeolite with High Framework Density from Natural Layered Silicate Magadiite. Chemistry - A European Journal, 29(61), 記事 e202301942. https://doi.org/10.1002/chem.202301942

Koike, M, Grosskreuz, I, Asakura, Y, Miyawaki, R, Gies, H, Wada, H, Shimojima, A, Marler, B & Kuroda, K 2023, 'Bridging the Gap between Zeolites and Dense Silica Polymorphs: Formation of All-Silica Zeolite with High Framework Density from Natural Layered Silicate Magadiite', Chemistry - A European Journal, vol. 29, no. 61, e202301942. https://doi.org/10.1002/chem.202301942

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abstract = "A silica zeolite (RWZ-1) with a very high framework density (FD) was synthesized from highly crystalline natural layered silicate magadiite, bridging the gap between the two research areas of zeolites and dense silica polymorphs. Magadiite was topotactically converted into a 3D framework through two-step heat treatment. The resulting structure had a 1D micropore system of channel-like cavities with an FD of 22.1 Si atoms/1000 {\AA}3. This value is higher than those of all other silica zeolites reported so far, approaching those of silica polymorphs (tridymite (22.6) and α-quartz (26.5)). RWZ-1 is a slight negative thermal expansion material with thermal properties approaching those of dense silica polymorphs. It contributes to the creation of a new field on microporous high-density silica/silicates. Synergistic interactions are expected between the micropores with molecular sieving properties and the dense layer-like building units with different topologies which provide thermal and mechanical stabilities.",

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