The potential of a graphene-supported porous-organic polymer (POP) for CO 2 electrocatalytic reduction

The potential of a graphene-supported porous-organic polymer (POP) for CO 2 electrocatalytic reduction

A one-pot, bottom-up assembly of a pyrimidine-containing porous-organic polymer (PyPOP) was conducted to homogenously deposit the PyPOP atop unmodified graphene sheets, affording a composite material PyPOP@G. The PyPOP demonstrated an appreciable affinity toward CO capture but was found to be largel...

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Veröffentlicht in:Chemical communications (Cambridge, England) England), 2016-10, Vol.52 (81), p.12032-12035
Hauptverfasser: Soliman, Ahmed B, Haikal, Rana R, Hassan, Youssef S, Alkordi, Mohamed H
Format: Artikel
Sprache:eng
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Zusammenfassung:A one-pot, bottom-up assembly of a pyrimidine-containing porous-organic polymer (PyPOP) was conducted to homogenously deposit the PyPOP atop unmodified graphene sheets, affording a composite material PyPOP@G. The PyPOP demonstrated an appreciable affinity toward CO capture but was found to be largely insulating, hindering its usage in potential electrochemical conversion of CO . However, its composite with graphene was found to be microporous, with maintained affinity toward CO and furthermore demonstrated significant electrochemical activity toward CO reduction (5 mA cm at -1.6 V), not observed in either of its two components separately.
ISSN:1359-7345
1364-548X
DOI:10.1039/C6CC06773E