High CO sub(2)/N sub(2)/O sub(2)/CO separation in a chemically robust porous coordination polymer with low binding energy

High CO sub(2)/N sub(2)/O sub(2)/CO separation in a chemically robust porous coordination polymer with low binding energy

Porous coordination polymers (PCPs), constructed from organic linkers and metal ions, can provide special pore environments for selective CO sub(2) capture. Although many PCPs have been reported, a rational design for identifying PCPs that adsorb CO sub(2) molecules with a low binding energy, high s...

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Veröffentlicht in:Chemical science (Cambridge) 2013-12, Vol.5 (2), p.660-666
Hauptverfasser: Duan, Jingui, Higuchi, Masakazu, Krishna, Rajamani, Kiyonaga, Tomokazu, Tsutsumi, Yosuke, Sato, Yohei, Kubota, Yoshiki, Takata, Masaki, Kitagawa, Susumu
Format: Artikel
Sprache:eng
Schlagworte:
Ambient temperature
Binding energy
Carbon dioxide
Carbon monoxide
Coordination polymers
Corrosion resistance
Porosity
Separation
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Zusammenfassung:Porous coordination polymers (PCPs), constructed from organic linkers and metal ions, can provide special pore environments for selective CO sub(2) capture. Although many PCPs have been reported, a rational design for identifying PCPs that adsorb CO sub(2) 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 super(guest)), that has a large aromatic organic surface and a low binding energy for high CO sub(2) separation from four-gas mixtures (CO sub(2)-N sub(2)-O sub(2)-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 degree C, which is unprecedented for carboxylate-based PCPs.
ISSN:2041-6520
2041-6539
DOI:10.1039/c3sc52177j