Your search keyword '"Sukenaga, Sohei"' showing total 4 results

1. Revealing the evolution of local structures in the formation process of alkaline earth metal cation-containing zeolites from glasses.

Author

Hu, Peidong, Deguchi, Makiko, Yamada, Hiroki, Kobayashi, Kentaro, Ohara, Koji, Sukenaga, Sohei, Ando, Mariko, Shibata, Hiroyuki, Machida, Akihiko, Yanaba, Yutaka, Liu, Zhendong, Okubo, Tatsuya, and Wakihara, Toru

Abstract

Alkaline earth metal cations are ubiquitously present in natural zeolites but less exploited in synthetic zeolites due to their low solubility in water, and hence it remains elusive how they contribute to zeolite formation. Herein, harmotome, a PHI-type zeolite with Ba2+, is readily synthesized from a Ba-containing aluminosilicate glass. This glass-to-zeolite transformation process, in particular the structure-regulating role of Ba2+, is investigated by anomalous X-ray scattering and high-energy X-ray total scattering techniques. The results demonstrate that the steady Ba2+–aluminosilicate interactions not only help prevent the precipitation of barium species under alkaline synthetic conditions, but also dictate the local structures with distinct interatomic distances between the Ba2+ and the surrounding aluminosilicate species throughout the transformation process, which lead to the successful formation of harmotome without detectable impurities. This study highlights the usefulness of the comprehensive X-ray scattering techniques in revealing the formation scheme of the zeolites containing specific metal species. In addition, a promising alternative approach to design and synthesize zeolites with unique compositions and topologies by using well-crafted glasses with suitable metal cation dopants is demonstrated. [ABSTRACT FROM AUTHOR]

Published

2024

2. Unique crystallization behavior in zeolite synthesis under external high pressures.

Author

Tan, Che, Liu, Zhendong, Yonezawa, Yasuo, Sukenaga, Sohei, Ando, Mariko, Shibata, Hiroyuki, Sasaki, Yukichi, Okubo, Tatsuya, and Wakihara, Toru

Subjects

HYDROTHERMAL synthesis, HIGH pressure chemistry, PRESSURE, BEHAVIOR

Abstract

The function of pressure has long been overlooked in the hydrothermal synthesis of zeolites, which is typically carried out under an autogenous pressure (below 2 MPa). We herein report, the first of its kind, a detailed investigation on the hydrothermal synthesis of zeolites under external high pressures, where crystallization behaviors contradicting the common observations were generated. [ABSTRACT FROM AUTHOR]

Published

2020

3. Ultrafast synthesis of high-silica erionite zeolites with improved hydrothermal stability.

Author

Zhu, Jie, Liu, Zhendong, Iyoki, Kenta, Anand, Chokkalingam, Yoshida, Kaname, Sasaki, Yukichi, Sukenaga, Sohei, Ando, Mariko, Shibata, Hiroyuki, Okubo, Tatsuya, and Wakihara, Toru

Subjects

ZEOLITES, CHEMICAL stability, ERIONITE

Abstract

High-silica erionite (ERI) zeolites are conventionally synthesised via a so-called charge density mismatch (CDM) approach, and a typical synthesis takes several days to complete. We herein demonstrate an ultrafast route to synthesise high-silica erionite zeolites in as short as 2 h at 210 °C. The fast-synthesised ERI has been proved to show higher hydrothermal stability compared with the conventionally synthesised product. [ABSTRACT FROM AUTHOR]

Published

2017

4. Revealing the evolution of local structures in the formation process of alkaline earth metal cation-containing zeolites from glasses.

Author

Hu P, Deguchi M, Yamada H, Kobayashi K, Ohara K, Sukenaga S, Ando M, Shibata H, Machida A, Yanaba Y, Liu Z, Okubo T, and Wakihara T

Abstract

Alkaline earth metal cations are ubiquitously present in natural zeolites but less exploited in synthetic zeolites due to their low solubility in water, and hence it remains elusive how they contribute to zeolite formation. Herein, harmotome, a PHI-type zeolite with Ba 2+ , is readily synthesized from a Ba-containing aluminosilicate glass. This glass-to-zeolite transformation process, in particular the structure-regulating role of Ba 2+ , is investigated by anomalous X-ray scattering and high-energy X-ray total scattering techniques. The results demonstrate that the steady Ba 2+ -aluminosilicate interactions not only help prevent the precipitation of barium species under alkaline synthetic conditions, but also dictate the local structures with distinct interatomic distances between the Ba 2+ and the surrounding aluminosilicate species throughout the transformation process, which lead to the successful formation of harmotome without detectable impurities. This study highlights the usefulness of the comprehensive X-ray scattering techniques in revealing the formation scheme of the zeolites containing specific metal species. In addition, a promising alternative approach to design and synthesize zeolites with unique compositions and topologies by using well-crafted glasses with suitable metal cation dopants is demonstrated.

Published

2023