Pore closure in zeolitic imidazolate frameworks under mechanical pressure.

Chem Sci

Department of Materials Science and Metallurgy , University of Cambridge, 27 Charles Babbage Road , Cambridge , CB3 0FS , UK.

Published: February 2018

We investigate the pressure-dependent mechanical behaviour of the zeolitic imidazolate framework ZIF-4 (M(im); M = Co or Zn, im = imidazolate) with high pressure, synchrotron powder X-ray diffraction and mercury intrusion measurements. A displacive phase transition from a highly compressible open pore () phase with continuous porosity (space group , bulk modulus ∼1.4 GPa) to a closed pore () phase with inaccessible porosity (space group 2/, bulk modulus ∼3.3-4.9 GPa) is triggered by the application of mechanical pressure. Over the course of the transitions, both ZIF-4 materials contract by about 20% in volume. However, the threshold pressure, the reversibility and the immediate repeatability of the phase transition depend on the metal cation. ZIF-4(Zn) undergoes the phase transition at a hydrostatic mechanical pressure of only 28 MPa, while ZIF-4(Co) requires about 50 MPa to initiate the transition. Interestingly, ZIF-4(Co) fully returns to the phase after decompression, whereas ZIF-4(Zn) remains in the phase after pressure release and requires subsequent heating to switch back to the phase. These variations in high pressure behaviour can be rationalised on the basis of the different electron configurations of the respective M ions (3d for Zn and 3d for Co). Our results present the first examples of phase transitions ( breathing transitions) of ZIFs driven by mechanical pressure and suggest potential applications of these functional materials as shock absorbers, nanodampers, or in mechanocalorics.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5887855PMC
http://dx.doi.org/10.1039/c7sc04952hDOI Listing

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