Journal
CHEMICAL SCIENCE
Volume 2, Issue 7, Pages 1311-1319Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c1sc00136a
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Funding
- US by the Department of Energy [DE-AC02-05CH11231]
- Italy by Fondazione Cariplo [2007-5117]
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Reactions between the tritopic pyrazole-based ligand 1,3,5-tris(1H-pyrazol-4-yl) benzene (H3BTP) and transition metal acetate salts in DMF afford microporous pyrazolate-bridged metal-organic frameworks of the type M-3(BTP)(2)center dot xsolvent (M Ni (1), Cu, (2), Zn (3), Co (4)). Ab-initio X-ray powder diffraction methods were employed in determining the crystal structures of these compounds, revealing 1 and 2 to exhibit an expanded sodalite-like framework with accessible metal cation sites, while 3 and 4 possess tetragonal frameworks with hydrophobic surfaces and narrower channel diameters. Compounds 1-4 can be desolvated without loss of crystallinity by heating under dynamic vacuum, giving rise to microporous solids with BET surface areas of 1650, 1860, 930 and 1027 m(2) g(-1), respectively. Thermogravimetric analyses and powder X-ray diffraction measurements demonstrate the exceptional thermal and chemical stability of these frameworks. In particular, 3 is stable to heating in air up to at least 510 degrees C, while 1 is stable to heating in air to 430 degrees C, as well as to treatment with boiling aqueous solutions of pH 2 to 14 for two weeks. Unexpectedly, 2 and 3 are converted into new crystalline metal-organic frameworks upon heating in boiling water. With the combination of stability under extreme conditions, high surface area, and exposed metal sites, it is anticipated that 1 may open the way to testing metal-organic frameworks for catalytic processes that currently employ zeolites.
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