Microporous materials formed via intercalation of ultrathin coordination polymers in a layered silicate

Yusuke Ide; Satoshi Tominaka; Taiki Okuyama; Nao Tsunoji; Koji Ohara; Masanori Mitome; Tsuneji Sano; Yoshio Bando; Dmitri Golberg

doi:10.1016/j.nanoen.2019.02.016

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Microporous materials formed via intercalation of ultrathin coordination polymers in a layered silicate

Journal article

Peer reviewed

Microporous materials formed via intercalation of ultrathin coordination polymers in a layered silicate

Yusuke Ide, Satoshi Tominaka, Taiki Okuyama, Nao Tsunoji, Koji Ohara, Masanori Mitome, Tsuneji Sano, Yoshio Bando and Dmitri Golberg

Nano energy, Vol.59, pp.162-168

05/2019

DOI: https://doi.org/10.1016/j.nanoen.2019.02.016

Abstract

Coordination polymer

Inorganic-organic hybrid

Layered silicate

Methanol/water separation

Microporous material

Development of microporous materials, like zeolites and metal-organic frameworks (MOFs), with unique and better properties, is crucially important, while yet challenging, for many energy applications. Herein, we report on a new family of microporous hybrids having well-defined permanent porosity, which is formed by pillaring a layered silicate with packed coordination polymers. This inorganic-organic hybrid material, having well-defined/two-faced micropores surrounded by the polymers and silicate walls, exhibits superior adsorption toward methanol due to co-operative interactions compared with conventional microporous materials. The material could be used as an adsorbent to selectively and effectively recover methanol from a methanol/water vapour mixture. A microporous material, formed by pillaring a layered silicate with packed 1D coordination polymers, has well-defined, two-faced micropores surrounded by the polymers and silicate walls and exhibits co-operative effects on methanol/water separation [Display omitted] . •A new porous material having energy applications that cannot be delivered by zeolites and MOFs.•Aligning/packing 1D coordination polymers within layered silicates creates micropores.•Synergistically enhanced adsorption by micropores surrounded by polymers and silicate walls.

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Title: Microporous materials formed via intercalation of ultrathin coordination polymers in a layered silicate
Creators - without role: Yusuke Ide - National Institute for Materials Science
Satoshi Tominaka - National Institute for Materials Science
Taiki Okuyama - Waseda University
Nao Tsunoji - Hiroshima University
Koji Ohara - Japan Synchrotron Radiation Research Institute
Masanori Mitome - National Institute for Materials Science
Tsuneji Sano - Hiroshima University
Yoshio Bando - National Institute for Materials Science
Dmitri Golberg - National Institute for Materials Science
Publication Details: Nano energy, Vol.59, pp.162-168
Publisher: Elsevier Ltd
Identifiers: 9946837308331
Academic Unit: King Saud University
Language: English
Resource Type: Journal article