3D derived N-doped carbon matrix from 2D ZIF-L as an enhanced stable catalyst for chemical fixation

3D metal N-doped carbon frameworks (M-NCFs) are produced from the direct pyrolysis of 2D zeolitic imidazolate frameworks (ZIF-L Zn and Co) in a reducing atmosphere. The effects of the thermal treatment were studied in order to achieve the desired catalyst. The results show that metal nanoparticles a...

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Published inMicroporous and mesoporous materials Vol. 285; pp. 80 - 88
Main Authors Ciprian, Matteo, Ruiz, Karla Hernandez, Kassymova, Meruyert, Wang, Tingting, Zhuiykov, Serge, Chaemchuen, Somboon, Tu, Rong, Verpoort, Francis
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.09.2019
Subjects
Carbonates
CO2 fixation
Heterogeneous catalyst
Pyrolysis
ZIF-L
ZIF-L
Pyrolysis
Heterogeneous catalyst
CO2 fixation
Carbonates
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Abstract 3D metal N-doped carbon frameworks (M-NCFs) are produced from the direct pyrolysis of 2D zeolitic imidazolate frameworks (ZIF-L Zn and Co) in a reducing atmosphere. The effects of the thermal treatment were studied in order to achieve the desired catalyst. The results show that metal nanoparticles and N-doping species present in the carbon matrix have a direct influence on the catalytic performance. Zn/NCF-1000 displayed quantitative conversion and selectivity towards the chemical fixation of carbon dioxide through the cycloaddition with epoxides. Furthermore, the magnetic property of the newly synthesized Co/NCF-600 was used to demonstrate its superior stability and recyclability, retaining the same catalytic activity for more than 10 cycles. [Display omitted] •3D Zn/NCFs and Co/NCFs derived from 2D ZIF-L crystals were easily prepared.•Comparative study of the different M/NCFs as function of the thermal treatment.•Zn/NCF-1000 and Co/NCF-600 are excellent catalysts for CO2 fixation.•Enhanced structural stability ensures 10 recycles without activity loss.
AbstractList 3D metal N-doped carbon frameworks (M-NCFs) are produced from the direct pyrolysis of 2D zeolitic imidazolate frameworks (ZIF-L Zn and Co) in a reducing atmosphere. The effects of the thermal treatment were studied in order to achieve the desired catalyst. The results show that metal nanoparticles and N-doping species present in the carbon matrix have a direct influence on the catalytic performance. Zn/NCF-1000 displayed quantitative conversion and selectivity towards the chemical fixation of carbon dioxide through the cycloaddition with epoxides. Furthermore, the magnetic property of the newly synthesized Co/NCF-600 was used to demonstrate its superior stability and recyclability, retaining the same catalytic activity for more than 10 cycles. [Display omitted] •3D Zn/NCFs and Co/NCFs derived from 2D ZIF-L crystals were easily prepared.•Comparative study of the different M/NCFs as function of the thermal treatment.•Zn/NCF-1000 and Co/NCF-600 are excellent catalysts for CO2 fixation.•Enhanced structural stability ensures 10 recycles without activity loss.
Author Wang, Tingting
Tu, Rong
Zhuiykov, Serge
Chaemchuen, Somboon
Ruiz, Karla Hernandez
Ciprian, Matteo
Kassymova, Meruyert
Verpoort, Francis
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  orcidid: 0000-0002-5184-5500
  surname: Verpoort
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  email: francis.verpoort@ku.ac.ae
  organization: State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan University of Technology, Wuhan, China
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Keywords ZIF-L
Pyrolysis
Heterogeneous catalyst
CO2 fixation
Carbonates
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Snippet 3D metal N-doped carbon frameworks (M-NCFs) are produced from the direct pyrolysis of 2D zeolitic imidazolate frameworks (ZIF-L Zn and Co) in a reducing...
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StartPage 80
SubjectTerms Carbonates
CO2 fixation
Heterogeneous catalyst
Pyrolysis
ZIF-L
Title 3D derived N-doped carbon matrix from 2D ZIF-L as an enhanced stable catalyst for chemical fixation
URI https://dx.doi.org/10.1016/j.micromeso.2019.04.053
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