Investigating the crystal engineering of the pillared paddlewheel metal–organic framework Zn2(NH2BDC)2DABCO

D. T. McGrath; V. A. Downing; M. J. Katz

doi:10.1039/C8CE00848E

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Investigating the crystal engineering of the pillared paddlewheel metal–organic framework Zn₂(NH₂BDC)₂DABCO†

D. T. McGrath,^a V. A. Downing^a and M. J. Katz

*^a

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^a Department of Chemistry, Memorial University of Newfoundland, 230 Elizabeth Avenue, St. John's, Newfoundland and Labrador, Canada
E-mail: mkatz@mun.ca

Abstract

The synthesis of Zn₂(NH₂BDC)₂DABCO was investigated with the hopes of producing a material with a high surface area. Despite considerable efforts to get reproducible results, replacing BDC with NH₂BDC was not trivial; the gas adsorption isotherms were inconsistent, resulting in different gas uptakes and large variation in hysteresis loops. Given this, we examined the gas adsorption isotherms (BET surface area and pore size distributions), the solution-phase NMR, and the powder X-ray diffractograms of our materials in order to puzzle out the underlying chemistry. From this data, we illustrate how 1D chains of Zn(H₂O)₂(NH₂BDC) are converted to partially pillared Zn₂(NH₂BDC)₂DABCO which is either amorphous or crystalline based on the NH₂BDC : DABCO ratio.

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Article information

DOI: https://doi.org/10.1039/C8CE00848E
Article type: Paper
Submitted: 22 May 2018
Accepted: 03 Sep 2018
First published: 03 Sep 2018

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CrystEngComm, 2018,20, 6082-6087

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Investigating the crystal engineering of the pillared paddlewheel metal–organic framework Zn₂(NH₂BDC)₂DABCO

D. T. McGrath, V. A. Downing and M. J. Katz, CrystEngComm, 2018, 20, 6082 DOI: 10.1039/C8CE00848E

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