Hexagonal Prismatic Siloxanes Functionalized with Organosilyl Groups as Building Blocks of Nanoporous Materials

Taiki Hayashi; Miharu Kikuchi; Nanako Murase; Takamichi Matsuno; Natsuhiko Sugimura; Kazuyuki Kuroda; Atsushi Shimojima

doi:10.1002/chem.202304080

Hexagonal Prismatic Siloxanes Functionalized with Organosilyl Groups as Building Blocks of Nanoporous Materials

Taiki Hayashi, Miharu Kikuchi, Nanako Murase, Takamichi Matsuno, Natsuhiko Sugimura, Kazuyuki Kuroda, Atsushi Shimojima^*

^*Corresponding author for this work

School of Advanced Science and Engineering

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Utilization of well-defined siloxane molecules allows for the construction of functional siloxane-based nanoporous materials based on the molecular design. Herein, a novel class of siloxane-based porous materials is synthesized via cross-linking of dimethylsilyl- and dimethylvinylsilyl-functionalized cage siloxanes with double-6-ring (D6R) geometry. Compared with the conventional double-4-ring cage siloxane, this study highlights the characteristics of D6R siloxanes as building blocks, demonstrating their high surface area and chemical stability. Furthermore, density functional theory calculations show their unique cation encapsulation ability.

Original language	English
Article number	e202304080
Journal	Chemistry - A European Journal
Volume	30
Issue number	17
DOIs	https://doi.org/10.1002/chem.202304080
Publication status	Published - 2024 Mar 20

Keywords

building blocks
cage siloxanes
hydrosilylation
nanoporous materials
zeolite analogues

ASJC Scopus subject areas

Catalysis
General Chemistry
Organic Chemistry

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10.1002/chem.202304080

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title = "Hexagonal Prismatic Siloxanes Functionalized with Organosilyl Groups as Building Blocks of Nanoporous Materials",

abstract = "Utilization of well-defined siloxane molecules allows for the construction of functional siloxane-based nanoporous materials based on the molecular design. Herein, a novel class of siloxane-based porous materials is synthesized via cross-linking of dimethylsilyl- and dimethylvinylsilyl-functionalized cage siloxanes with double-6-ring (D6R) geometry. Compared with the conventional double-4-ring cage siloxane, this study highlights the characteristics of D6R siloxanes as building blocks, demonstrating their high surface area and chemical stability. Furthermore, density functional theory calculations show their unique cation encapsulation ability.",

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T1 - Hexagonal Prismatic Siloxanes Functionalized with Organosilyl Groups as Building Blocks of Nanoporous Materials

AU - Hayashi, Taiki

AU - Kikuchi, Miharu

AU - Murase, Nanako

AU - Matsuno, Takamichi

AU - Sugimura, Natsuhiko

AU - Kuroda, Kazuyuki

AU - Shimojima, Atsushi

PY - 2024/3/20

Y1 - 2024/3/20

N2 - Utilization of well-defined siloxane molecules allows for the construction of functional siloxane-based nanoporous materials based on the molecular design. Herein, a novel class of siloxane-based porous materials is synthesized via cross-linking of dimethylsilyl- and dimethylvinylsilyl-functionalized cage siloxanes with double-6-ring (D6R) geometry. Compared with the conventional double-4-ring cage siloxane, this study highlights the characteristics of D6R siloxanes as building blocks, demonstrating their high surface area and chemical stability. Furthermore, density functional theory calculations show their unique cation encapsulation ability.

AB - Utilization of well-defined siloxane molecules allows for the construction of functional siloxane-based nanoporous materials based on the molecular design. Herein, a novel class of siloxane-based porous materials is synthesized via cross-linking of dimethylsilyl- and dimethylvinylsilyl-functionalized cage siloxanes with double-6-ring (D6R) geometry. Compared with the conventional double-4-ring cage siloxane, this study highlights the characteristics of D6R siloxanes as building blocks, demonstrating their high surface area and chemical stability. Furthermore, density functional theory calculations show their unique cation encapsulation ability.

KW - building blocks

KW - cage siloxanes

KW - hydrosilylation

KW - nanoporous materials

KW - zeolite analogues

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Hexagonal Prismatic Siloxanes Functionalized with Organosilyl Groups as Building Blocks of Nanoporous Materials

Abstract

Keywords

ASJC Scopus subject areas

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