High CO2/N2/O2/CO separation in a chemically robust porous coordination polymer with low binding energy

Jingui Duan; Masakazu Higuchi; Rajamani Krishna; Tomokazu Kiyonaga; Yosuke Tsutsumi; Yohei Sato; Yoshiki Kubota; Masaki Takata; Susumu Kitagawa

doi:10.1039/c3sc52177j

High CO₂/N₂/O₂/CO separation in a chemically robust porous coordination polymer with low binding energy

Jingui Duan, Masakazu Higuchi, Rajamani Krishna, Tomokazu Kiyonaga, Yosuke Tsutsumi, Yohei Sato, Yoshiki Kubota, Masaki Takata, Susumu Kitagawa

科研成果: 期刊稿件 › 文章 › 同行评审

190 引用（Scopus）

摘要

Porous coordination polymers (PCPs), constructed from organic linkers and metal ions, can provide special pore environments for selective CO₂ capture. Although many PCPs have been reported, a rational design for identifying PCPs that adsorb CO₂ molecules with a low binding energy, high separation ability and high chemical stability remains a great challenge. Here, we propose and validate, experimentally and computationally, a new PCP, [La(BTN)DMF]·guest (PCP-1⊃guest), that has a large aromatic organic surface and a low binding energy for high CO₂ separation from four-gas mixtures (CO₂–N₂–O₂–CO) at ambient temperature. In addition, it shows good water and chemical stability; in particular, it is stable from pH = 2 to 12 at 100 °C, which is unprecedented for carboxylate-based PCPs.

源语言	英语
页（从-至）	660-666
页数	7
期刊	Chemical Science
卷	5
期	2
DOI	https://doi.org/10.1039/c3sc52177j
出版状态	已出版 - 23 12月 2013
已对外发布	是

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abstract = "Porous coordination polymers (PCPs), constructed from organic linkers and metal ions, can provide special pore environments for selective CO2 capture. Although many PCPs have been reported, a rational design for identifying PCPs that adsorb CO2 molecules with a low binding energy, high separation ability and high chemical stability remains a great challenge. Here, we propose and validate, experimentally and computationally, a new PCP, [La(BTN)DMF]·guest (PCP-1⊃guest), that has a large aromatic organic surface and a low binding energy for high CO2 separation from four-gas mixtures (CO2–N2–O2–CO) at ambient temperature. In addition, it shows good water and chemical stability; in particular, it is stable from pH = 2 to 12 at 100 °C, which is unprecedented for carboxylate-based PCPs.",

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AU - Duan, Jingui

AU - Higuchi, Masakazu

AU - Krishna, Rajamani

AU - Kiyonaga, Tomokazu

AU - Tsutsumi, Yosuke

AU - Sato, Yohei

AU - Kubota, Yoshiki

AU - Takata, Masaki

AU - Kitagawa, Susumu

PY - 2013/12/23

Y1 - 2013/12/23

N2 - Porous coordination polymers (PCPs), constructed from organic linkers and metal ions, can provide special pore environments for selective CO2 capture. Although many PCPs have been reported, a rational design for identifying PCPs that adsorb CO2 molecules with a low binding energy, high separation ability and high chemical stability remains a great challenge. Here, we propose and validate, experimentally and computationally, a new PCP, [La(BTN)DMF]·guest (PCP-1⊃guest), that has a large aromatic organic surface and a low binding energy for high CO2 separation from four-gas mixtures (CO2–N2–O2–CO) at ambient temperature. In addition, it shows good water and chemical stability; in particular, it is stable from pH = 2 to 12 at 100 °C, which is unprecedented for carboxylate-based PCPs.

AB - Porous coordination polymers (PCPs), constructed from organic linkers and metal ions, can provide special pore environments for selective CO2 capture. Although many PCPs have been reported, a rational design for identifying PCPs that adsorb CO2 molecules with a low binding energy, high separation ability and high chemical stability remains a great challenge. Here, we propose and validate, experimentally and computationally, a new PCP, [La(BTN)DMF]·guest (PCP-1⊃guest), that has a large aromatic organic surface and a low binding energy for high CO2 separation from four-gas mixtures (CO2–N2–O2–CO) at ambient temperature. In addition, it shows good water and chemical stability; in particular, it is stable from pH = 2 to 12 at 100 °C, which is unprecedented for carboxylate-based PCPs.

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High CO2/N2/O2/CO separation in a chemically robust porous coordination polymer with low binding energy

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High CO₂/N₂/O₂/CO separation in a chemically robust porous coordination polymer with low binding energy