Idiosyncrasies of Co2(dhtp): In situ-annealing by methanol

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • Christian Chmelik
  • Alexander Mundstock
  • Pascal D.C. Dietzel
  • Jürgen Caro

Organisationseinheiten

Externe Organisationen

  • Universität Leipzig
  • University of Bergen (UiB)
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Details

OriginalspracheEnglisch
Seiten (von - bis)117-123
Seitenumfang7
FachzeitschriftMicroporous and Mesoporous Materials
Jahrgang183
Frühes Online-Datum12 Sept. 2013
PublikationsstatusVeröffentlicht - 1 Jan. 2014

Abstract

Structural instability in humid surroundings is one of the major drawbacks of many metal organic frameworks (MOFs) compared to zeolites. In this study we investigate the pronounced sensitivity of MOF Co2(dhtp) (Co-MOF-74 or CPO-27-Co) towards humid air. Guest uptake in big Co2(dhtp) crystals has been studied by IR microscopy. We found that already a short exposure of 30 s to moist air causes a surface blockage, completely preventing the adsorption of even small guest molecules. It could be confirmed in complementary PXRD measurements that the interior of the crystals remains intact during such short exposure times. Indications for a loss of crystallinity were evidenced only for notably longer exposure times (4 h). Most remarkably, the defects could at least be partially annealed in methanol atmosphere. Reversible adsorption of hydrocarbons in initially blocked crystals was found after exposing the crystals to methanol vapor for about 0.5 h.

ASJC Scopus Sachgebiete

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Idiosyncrasies of Co2(dhtp): In situ-annealing by methanol. / Chmelik, Christian; Mundstock, Alexander; Dietzel, Pascal D.C. et al.
in: Microporous and Mesoporous Materials, Jahrgang 183, 01.01.2014, S. 117-123.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Chmelik C, Mundstock A, Dietzel PDC, Caro J. Idiosyncrasies of Co2(dhtp): In situ-annealing by methanol. Microporous and Mesoporous Materials. 2014 Jan 1;183:117-123. Epub 2013 Sep 12. doi: 10.1016/j.micromeso.2013.09.002
Chmelik, Christian ; Mundstock, Alexander ; Dietzel, Pascal D.C. et al. / Idiosyncrasies of Co2(dhtp) : In situ-annealing by methanol. in: Microporous and Mesoporous Materials. 2014 ; Jahrgang 183. S. 117-123.
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abstract = "Structural instability in humid surroundings is one of the major drawbacks of many metal organic frameworks (MOFs) compared to zeolites. In this study we investigate the pronounced sensitivity of MOF Co2(dhtp) (Co-MOF-74 or CPO-27-Co) towards humid air. Guest uptake in big Co2(dhtp) crystals has been studied by IR microscopy. We found that already a short exposure of 30 s to moist air causes a surface blockage, completely preventing the adsorption of even small guest molecules. It could be confirmed in complementary PXRD measurements that the interior of the crystals remains intact during such short exposure times. Indications for a loss of crystallinity were evidenced only for notably longer exposure times (4 h). Most remarkably, the defects could at least be partially annealed in methanol atmosphere. Reversible adsorption of hydrocarbons in initially blocked crystals was found after exposing the crystals to methanol vapor for about 0.5 h.",
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AU - Chmelik, Christian

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AU - Dietzel, Pascal D.C.

AU - Caro, Jürgen

N1 - Funding Information: Financial support by DFG priority program SPP 1570 “Porous media with defined pore structure in chemical engineering – modeling, application, synthesis” is acknowledged. Prof. F. Keil is thanked for organizing this DFG Priority program. Further, we thank ENMIX, the "European Nanoporous Materials Institute of Excellence", for support.

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N2 - Structural instability in humid surroundings is one of the major drawbacks of many metal organic frameworks (MOFs) compared to zeolites. In this study we investigate the pronounced sensitivity of MOF Co2(dhtp) (Co-MOF-74 or CPO-27-Co) towards humid air. Guest uptake in big Co2(dhtp) crystals has been studied by IR microscopy. We found that already a short exposure of 30 s to moist air causes a surface blockage, completely preventing the adsorption of even small guest molecules. It could be confirmed in complementary PXRD measurements that the interior of the crystals remains intact during such short exposure times. Indications for a loss of crystallinity were evidenced only for notably longer exposure times (4 h). Most remarkably, the defects could at least be partially annealed in methanol atmosphere. Reversible adsorption of hydrocarbons in initially blocked crystals was found after exposing the crystals to methanol vapor for about 0.5 h.

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